SUMMERY OF THE UTILITY MODEL
The following is a summary of the subject matter herein and is not intended to limit the scope of the claims.
The application discloses intelligence lamps and lanterns and intelligent lamps and lanterns control system to solve one or more among the technical problem that exists among the above-mentioned background art.
The utility model discloses an intelligent lamp, intelligent lamp includes: the external light sensor is connected with the control device;
the external light sensor is used for receiving an ambient light signal; when the received ambient light signal reaches a threshold value, sending a first enabling signal to a control device;
and the control device is used for controlling the starting working state of the lamp according to the first enabling signal and adjusting the brightness of the lamp according to a preset rule.
Optionally, the intelligent luminaire further comprises: the human body sensor is connected with the control device and used for monitoring human body activity events in a preset area and sending a detection result to the control device;
and the control device adjusts the brightness of the lamp to a first preset brightness according to the received detection result.
Optionally, the intelligent lamp communicates with a communication base station, and a distributed light sensor is configured below the intelligent lamp; the control device specifically adjusts the brightness of the lamp according to a preset rule, and the method includes:
the distributed light sensor detects the illumination value of the illuminated surface of the lamp and periodically sends the illumination value data to a first communication base station;
the first communication base station receives the illumination value data and sends the illumination value data to a second communication base station;
the second communication base station sends the illumination value data to the intelligent lamp;
according to the received illumination value data, the intelligent lamp adjusts the brightness of the lamp according to a pre-stored mapping table of the distributed light sensor illumination value and the external light sensor illumination value; wherein the mapping table stores a ratio between the distributed light sensor illumination value and an external light sensor illumination value.
Optionally, the distributed light sensor is further configured to send an identification number of the intelligent lamp and the illumination value of the illuminated surface to the first communication base station together; wherein the identification number is used for instructing the second communication base station to determine the intelligent lamp; wherein the identification number includes, but is not limited to, an address number code of the intelligent light fixture.
Optionally, the communication base station and the intelligent lamp establish communication connection through a wireless communication technology, wherein the wireless communication technology includes WIFI, bluetooth, ZIGBEE and LORA.
Optionally, the adjusting, by the control device, the lamp brightness to a first preset brightness according to the detection result of the human body sensor specifically includes:
the human body sensor detects whether a human body activity event exists in a preset area;
when a human body activity event is detected, the control device activates a human body light sensing mode of the intelligent lamp;
detecting whether the illumination value of the illuminated surface of the intelligent lamp reaches a preset illumination value or not in the human body photosensitive mode;
when the illumination value of the illuminated surface does not reach the preset illumination value, adjusting the brightness of the intelligent lamp to a first preset brightness; the preset luminance value and the first preset luminance have a corresponding relation.
Optionally, after the brightness of the intelligent lamp is adjusted to a first preset brightness; the human body sensor continuously detects whether a human body activity event exists in a preset area within a preset time;
when a human body activity event is detected within a preset time, the intelligent lamp continues to work at a first preset brightness;
when the human body activity event is not detected within the preset time, the control device closes the human body photosensitive mode and adjusts the brightness of the intelligent lamp to a second preset brightness, wherein the second preset brightness is smaller than the first preset brightness.
Optionally, the first preset brightness value and the second preset brightness value may be preset through an application module corresponding to the user intelligent terminal; and the intelligent lamp receives the first preset brightness value and the second preset brightness value which are preset and sent by the intelligent terminal.
The utility model also discloses an intelligence lamps and lanterns control system, control system includes: the intelligent lamp comprises an intelligent lamp, a communication base station, an intelligent terminal and a cloud server; wherein,
the intelligent terminal is used for receiving a preset brightness value for setting the brightness of the intelligent lamp;
the cloud server is used for receiving a preset brightness value of the intelligent terminal and forwarding the preset brightness value to the communication base station;
the intelligent lamp is used for receiving the preset brightness value forwarded by the communication base station and adjusting the brightness of the lamp according to the preset brightness value.
The intelligent lamp and the intelligent lamp control system can intelligently adjust the brightness of the lamp according to the change of the external environment light, improve the intelligence of lamp illumination, and simultaneously realize the energy conservation of the intelligent lamp.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
Detailed Description
Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims. It should be noted that, if there is no conflict, the embodiments and various features in the embodiments of the present invention may be combined with each other, and all are within the scope of the present invention. Additionally, while a logical order is shown in the flow diagrams, in some cases, the steps shown or described may be performed in an order different than here.
The intelligent terminal can be a product with various forms, such as a mobile phone, a tablet computer, a PC and the like.
The embodiment of the utility model discloses intelligence lamps and lanterns, as shown in figure 1, intelligence lamps and lanterns include: the external light sensor is connected with the control device;
the external light sensor is used for receiving an ambient light signal; when the received ambient light signal reaches a threshold value, sending a first enabling signal to a control device;
and the control device is used for controlling the starting working state of the lamp according to the first enabling signal and adjusting the brightness of the lamp according to a preset rule.
Optionally, the intelligent luminaire further comprises: the human body sensor is connected with the control device and used for monitoring human body activity events in a preset area and sending a detection result to the control device;
and the control device adjusts the brightness of the lamp to a first preset brightness according to the received detection result.
In an optional embodiment, optionally, the intelligent lamp communicates with a communication base station, and a distributed light sensor is configured below the intelligent lamp; the control device specifically adjusts the brightness of the lamp according to a preset rule, and the method includes: the distributed light sensor detects the illumination value of the illuminated surface of the lamp and periodically sends the illumination value data to a first communication base station; the first communication base station receives the illumination value data and sends the illumination value data to a second communication base station; the second communication base station sends the illumination value data to the intelligent lamp; according to the received illumination value data, the intelligent lamp adjusts the brightness of the lamp according to a pre-stored mapping table of the distributed light sensor illumination value and the external light sensor illumination value; wherein the mapping table stores a ratio between the distributed light sensor illumination value and an external light sensor illumination value.
Further, the distributed light sensor is also used for sending the identification number of the intelligent lamp and the illumination value of the illuminated surface to the first communication base station; wherein the identification number is used for instructing the second communication base station to determine the intelligent lamp; wherein the identification number includes, but is not limited to, an address number code of the intelligent light fixture.
Furthermore, the communication base station and the intelligent lamp establish communication connection through wireless communication technologies (such as WIFI, Bluetooth, ZIGBEE, LORA and the like).
To further illustrate the above embodiments, a more specific implementation is described in detail as follows: a distributed light sensor is arranged below a group of intelligent lamps and lanterns, the distributed light sensor sends light sensation collection brightness values to a first communication base station at regular time, the first communication base station forwards the distributed light sensation collection values to a second communication base station, and the second communication base station forwards the collected brightness values to the intelligent lamps and lanterns. In a preferred embodiment, distributed light sensors can be installed below six intelligent light fixtures, and the distributed light sensors are used for packaging and uploading coded data of the illumination value of the illuminated surface and the address numbers of the six light fixtures corresponding to the distributed light sensors to a communication base station connected with the distributed light sensors, such as a lamp networking base station. And the communication base station forwards the data packet to the control devices of the six lamps, and the control devices calculate to obtain a calibration ratio according to the obtained illuminance values of the distributed light sensors and the illuminance values of the external light sensors of the intelligent lamps. The light sensation value does not change greatly within a certain time, the intelligent lamp obtains the ratio of the illuminance value of the external light sensor to the illuminance value of the distributed light sensor according to the distributed light sensation value, for example, 20LUX can be used as a change scale to store the ratio, and a ratio calibration table, that is, a mapping table of the illuminance value of the external light sensor and the illuminance value of the distributed light sensor, is obtained. According to the mapping table, the intelligent lamp obtains an illumination value of an actual illuminated surface. The method can be used for calibrating the illumination of the intelligent lamp, and the intelligent lamp can be accurately adjusted.
In an optional embodiment, the adjusting, by the control device, the lamp brightness to the first preset brightness according to the detection result of the human body sensor specifically includes:
the human body sensor detects whether a human body activity event exists in a preset area;
when a human body activity event is detected, the control device sends a second enabling instruction, and the control device activates a human body light sensing mode of the intelligent lamp according to the second enabling instruction;
detecting whether the illumination value of the illuminated surface of the intelligent lamp reaches a preset illumination value or not in the human body photosensitive mode;
when the illumination value of the illuminated surface does not reach the preset illumination value, adjusting the brightness of the intelligent lamp to a first preset brightness; the preset luminance value and the first preset luminance have a corresponding relation.
In an optional embodiment, after the brightness of the intelligent lamp is adjusted to a first preset brightness; the human body sensor continuously detects whether a human body activity event exists in a preset area within a preset time;
when a human body activity event is detected within a preset time, the intelligent lamp continues to work at a first preset brightness;
when the human body activity event is not detected within the preset time, the control device closes the human body photosensitive mode and adjusts the brightness of the intelligent lamp to a second preset brightness, wherein the second preset brightness is smaller than the first preset brightness.
In a specific embodiment, as shown in fig. 2, the specific steps of adjusting the brightness of the lamp by the intelligent lamp with the human body sensor are as follows:
s101, detecting whether human body activity exists by a human body sensor; a preset area of detection can be defined, which can be set according to the actual required illumination.
S102, if yes, activating a human body photosensitive mode of the intelligent lamp by the control device; otherwise, controlling the human body sensor to continuously detect;
s103, detecting the illumination of the illuminated surface of the current intelligent lamp, judging whether the brightness reaches a preset first preset value corresponding to the preset activation mode, and if so, controlling the lamp to keep the preset brightness to work in a delayed mode, namely to work in the delayed mode at the brightness. And if the brightness does not reach the preset corresponding illumination value in the corresponding mode, continuously adjusting the output voltage to adjust the brightness of the intelligent lamp until the brightness reaches the brightness corresponding to the illumination value in the activation mode.
S104, under the condition that the previous step is yes, whether new human body activity exists or not is detected within preset time or set time, and if yes, the lamp is controlled to work under the brightness; otherwise, controlling to close the human body photosensitive mode.
And S105, after the human body photosensitive mode of the intelligent lamp is closed, detecting whether the brightness reaches a corresponding illumination value in the human body photosensitive activation closing mode. Specifically, whether the illumination value of the illuminated surface in the state of the human body sensitization mode activation mode is a second preset value or not is detected, if yes, the intelligent lamp is controlled to illuminate at the brightness corresponding to the second preset value, and the human body sensor of the intelligent lamp is controlled to continue the detection work in the step S101.
And S106, under the condition that the last step is negative, adjusting the brightness to the preset brightness in the human body photosensitive activation mode. Specifically, the output voltage is adjusted to control the intelligent lamp to reduce the brightness to a preset brightness, namely, the brightness corresponding to the second preset illuminance value in the previous step. In practical situations, the brightness corresponding to the second preset value at this time is lower than the brightness corresponding to the first preset value for activating the human body photosensitive mode.
In the above embodiment, the external light sensor and the human body sensor cooperate with each other to achieve accurate adjustment of the brightness of the illuminated surface of the intelligent lamp. The brightness of the illuminated surface can be kept at the set illumination value in winter and summer no matter day or night, and real-time brightness adjustment can be carried out according to actual requirements. After the human body photosensitive mode is activated, the light supplement effect of the external environment can be utilized, the normal lighting effect is guaranteed with the least lighting output, the real flexible adjustment is realized, the energy is reasonably saved, the natural energy is utilized to the maximum extent, and the power resource consumption is reduced. For example, in a daily production workshop, when the workshop is lighted well, sunlight can ensure basic visibility in a certain place in the daytime, and when no one passes through the workshop, the brightness of a lamp does not need to be improved. When someone passes by, the brightness is improved according to the preset rule and the preset brightness value, and normal work is guaranteed.
In an optional embodiment, the first preset brightness value and the second preset brightness value may be preset through an application module corresponding to the user intelligent terminal; and the intelligent lamp receives the first preset brightness value and the second preset brightness value which are preset and sent by the intelligent terminal. For example, the brightness of the intelligent lamp is set through an APP in a mobile phone, or the brightness of the intelligent lamp is set through a Web of a computer, and of course, the activation mode of the human body photosensitive mode of the intelligent lamp can be set or the mode can be directly activated or closed.
The utility model also discloses an intelligence lamps and lanterns control system, control system includes: the intelligent lamp comprises an intelligent lamp, a communication base station, an intelligent terminal and a cloud server; wherein,
the intelligent terminal is used for receiving a preset brightness value for setting the brightness of the intelligent terminal;
the cloud server is used for receiving a preset brightness value of the intelligent terminal and forwarding the preset brightness value to the communication base station;
the intelligent lamp is used for receiving the preset brightness value forwarded by the communication base station and adjusting the brightness of the lamp according to the preset brightness value.
In a preferred embodiment, the intelligent luminaire control system, as shown in fig. 3, includes: the system comprises an intelligent lamp, a communication base station, an intelligent terminal, a cloud server and a distributed light sensor; wherein,
the intelligent terminal is used for receiving a preset brightness value for setting the brightness of the intelligent lamp; the intelligent terminal sets the brightness of the intelligent lamp through APP or Web;
the cloud server is used for receiving a preset brightness value sent by the intelligent terminal and forwarding the preset brightness value to the communication base station; the communication base station includes but is not limited to a lamp networking base station; in a specific embodiment, the communication base station is responsible for networking and forwarding the data packet, and is responsible for establishing Socket connection with the cloud server and forwarding the data packet to the cloud server program.
The intelligent lamp is used for receiving the preset brightness value forwarded by the communication base station and adjusting the brightness of the lamp according to the preset brightness value.
The distributed light sensor is used for detecting whether the brightness of the intelligent lamp reaches the brightness preset by the intelligent terminal through web or app.
In the embodiment, the cloud server is connected and communicated with the communication base station, and the communication base station is connected and communicated with the communication base station in a wired or wireless mode; the communication base station and the intelligent lamp are communicated in a wireless mode, wherein the wireless communication mode is not limited.
The intelligent lamp and the intelligent lamp control system can intelligently adjust the brightness of the lamp according to the change of the external environment light, improve the intelligence of lamp illumination, and simultaneously realize the energy conservation of the intelligent lamp.
It will be understood by those skilled in the art that all or part of the steps of the above methods may be implemented by instructing the relevant hardware through a program, and the program may be stored in a computer readable storage medium, such as a read-only memory, a magnetic or optical disk, and the like. Alternatively, all or part of the steps of the above embodiments may be implemented using one or more integrated circuits. Accordingly, each module/unit in the above embodiments may be implemented in the form of hardware, and may also be implemented in the form of a software functional module. The present invention is not limited to any specific form of hardware or software combination.
Although the embodiments of the present invention have been described above, the description is only for the convenience of understanding the present invention, and the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.
It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.