Detailed Description
The application scheme is further described below with reference to the accompanying drawings:
example one
As shown in fig. 1, the synchronous color-changing RGB solar wall washer lamp includes an RGBlight source module 10, acontroller module 20, a solarpower supply module 30, and a satellite timesignal receiving module 40 for receiving satellite time signals;
the satellite timesignal receiving module 40 and the RGBlight source module 10 are respectively connected to thecontroller module 20, so that the controller module controls the RGB light source module to be turned on according to the satellite time signal received by the satellite time signal receiving module;
the solarpower supply module 30 is configured to supply power to the satellite timingsignal receiving module 40, thecontroller module 20 and the RGBlight source module 10.
The satellite time servicesignal receiving module 40 is a BDS/GNSS full constellation positioning navigation module, wherein the BDS refers to a beidou satellite navigation system, and the GNSS refers to a global navigation satellite system (also called a global navigation satellite system);
the solarpower supply module 30 includes a solar photovoltaic panel and a storage battery connected to each other, and the storage battery is used for storing electric energy obtained through the solar photovoltaic panel.
In this embodiment, the storage battery is a lithium battery.
The synchronous color-changing RGB solar wall washer lamp further comprises afault detection module 50 and a faultsignal sending module 60 for sending a fault signal outwards;
thefault detection module 50 and the faultsignal transmission module 60 are respectively connected with thecontroller module 20;
thefault detection module 50 is configured to determine whether the current light color is correct;
when the determination result of thefault detection module 50 is negative, thecontroller module 20 sends a fault signal to the outside through the faultsignal sending module 60.
According to the technical scheme, whether the single wall washing lamp body works normally is judged by judging whether the color of the lamplight is correct, the abnormal lamplight condition caused by the abnormal working voltage or current of the single wall washing lamp body can be detected, and the abnormal lamplight event under the normal working voltage or current of the single wall washing lamp body can also be detected. The wall washing lamp single body with abnormal work can be found in time through the arranged fault signal sending module, and the position information of the wall washing lamp single body with abnormal work can be obtained in time on the basis of utilizing the satellite positioning system, so that the wall washing lamp single body can be maintained in time.
Thefault detection module 50 comprises a light color acquisition module and a light color comparison module;
the lighting color acquisition module samples lighting colors at preset time intervals, and the current sampled lighting colors are obtained by sampling each time, wherein in the embodiment, the preset time intervals can be set to be sampling every 5 to 10 minutes;
the light color comparison module compares the current sampling light color obtained by each sampling with the actual light color corresponding to the current sampling time. And if the current sampling light color is different from the actual light color corresponding to the current sampling time, judging whether the fault detection module has the judgment result of negative.
This technical scheme can realize detecting continuously through sampling the light colour at predetermined time interval to in time discover the trouble.
The fault detection module, the light color acquisition module and the light color comparison module of the embodiment can be realized by adopting the prior art, for example, the technology of acquiring and identifying the lighting color of a traffic signal lamp can be referred to. The light color collecting module may include a miniature camera (i.e., an image acquiring module) for acquiring a light image, and then analyzing the light image (e.g., using an image processing module) to obtain light color information in the light image. This light colour compares and can predetermine the actual light colour data that has the current sampling time to correspond in the module, because the working process of RGB light source module adopts program control completely, the correct light colour of arbitrary time quantum is predictable in the RGB light source module working process, and the actual light colour data that corresponds this current sampling time is predictable promptly. Of course, a certain wall washer may also be used as a reference standard, and the light color of the wall washer that is used as the reference standard at the current sampling time is used as the actual light color corresponding to the current sampling time.
The invention has the following advantages:
1. the solar photoelectric plate is used for generating electricity, the storage battery can be charged in the daytime, and the lamp can be automatically discharged and lightened at night, so that the lamp is free of wire pulling during installation, maintenance and safety and convenience.
2. The BDS/GNSS full constellation positioning navigation module is arranged in the lamp, and the lamp can be turned on according to positioning time service signals provided by satellites, so that all wall washing lamp monomers are not in the national boundary and the region, and do not need to be turned on simultaneously, the synchronous color change can be realized when the lamp is turned on, and the consistency is good. The BDS/GNSS full constellation positioning navigation module is responsible for receiving electric signals sent by satellites, converts the electric signals into light-changing driving signals after being processed by the controller module, and controls the RGB light source module to keep synchronous signal flashing and color synchronous change.
Example two
As shown in fig. 2, the control system for a wall washer comprises amanagement center 70, asatellite positioning system 80, and a plurality ofwall washer monomers 90, wherein eachwall washer monomer 90 is the RGB solar wall washer with synchronous color change described in the first embodiment, and the structure of each wall washer monomer can be referred to in the first embodiment and is not described herein again;
themanagement center 70, the satellite time servicesignal receiving module 40 and the faultsignal sending module 60 of each single wall washer 90 establish communication connection with thesatellite positioning system 80 respectively.
The satellite positioning system has the functions of positioning and time service, so that the position of each single wall washer can be determined, and a time service signal can be sent to each single wall washer. The satellite positioning system may include a BDS (Beidou satellite navigation system), a GNSS (global navigation satellite system), and the like.
The management center is internally provided with supervision equipment capable of communicating with a satellite positioning system so as to acquire the position information of each wall washing lamp monomer and the fault information of the fault detection module, and can also transmit a control instruction to each wall washing lamp monomer through the satellite positioning system and by adopting the prior art.