CN111586913B - Indoor lamplight rhythm system based on PLC-BUS technology - Google Patents
Indoor lamplight rhythm system based on PLC-BUS technology Download PDFInfo
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- CN111586913B CN111586913B CN202010318782.9A CN202010318782A CN111586913B CN 111586913 B CN111586913 B CN 111586913B CN 202010318782 A CN202010318782 A CN 202010318782A CN 111586913 B CN111586913 B CN 111586913B
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/20—Controlling the colour of the light
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Abstract
The application provides an indoor lamplight rhythm system based on a PLC-BUS technology, which comprises a network component, an indoor lamplight component and a factor induction component, wherein the network component comprises a PLC gateway and a wifi router, and the PLC gateway and the wifi router are in data communication; the indoor light assembly comprises a light main control chip, a light adjusting device and an LED lamp, wherein the light main control chip is connected with the light adjusting device, and the light adjusting device is arranged at the position of the LED lamp to adjust the lamp; the factor sensing component comprises an illumination sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user predicting module; the light sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the light main control chip, so that the technical effect that the LED lamp changes corresponding to the rhythm illumination along with indoor environment transformation is achieved.
Description
Technical Field
The application relates to the technical field of IOT (Internet of things), in particular to an indoor lamplight rhythm system based on a PLC-BUS technology.
Background
With the rapid development of internet technology, many traditional industries perform mode transformation through the internet nowadays, smart home is an emerging concept, and in recent years, attention is gradually paid to the smart home, and many home appliance manufacturers begin to pay attention to business opportunities in the field, and a plurality of ideas for realizing the concept of the smart home are successively proposed, so that the smart home is used as a home appliance control device which is most closely related to life of people, and the competitive subdivision field is further developed;
the PLCBUS technology (PulsePositionModulation (PPM)) is a new power carrier communication technology developed in recent years, and is abbreviated as pulse phase modulation method. The method comprises the steps of using sine waves of a power line as synchronous signals, and transmitting instantaneous electric pulses in four fixed time sequences to transmit signals; the PLCBUS signal can be transmitted far. Because of the specificity of the PPM communication mode of the PLCBUS, the receiver of the PLCBUS can easily and simply restore the code of the PLCBUS. The plibus signal is generally generated by first charging a capacitor at high voltage and then discharging the capacitor's charge onto the power line at a very precise time. This rapid capacitive discharge produces a momentary pulse of energy on the power line, so that the plibus receiver can easily receive the plibus signal in a far-away location;
the invention aims to provide a PLC-BUS rhythm lighting system which changes the indoor environment along with factors such as climate, illumination, time, temperature, humidity and the like.
Disclosure of Invention
The application provides an indoor lamplight rhythm system based on a PLC-BUS technology, which is used for carrying out corresponding rhythm illumination change along with indoor environment change, so that user experience is improved.
The application adopts the following technical means for solving the technical problems:
the application provides an indoor lamplight rhythm system based on PLC-BUS technology, which comprises a network component, an indoor lamplight component and a factor induction component, wherein,
the network component comprises a PLC gateway and a wifi router, and the PLC gateway and the wifi router are in data communication;
the indoor light assembly comprises a light main control chip, a light adjusting device and an LED lamp, wherein the light main control chip is connected with the light adjusting device, and the light adjusting device is arranged at the position of the LED lamp to adjust the lamp;
the factor sensing assembly comprises an illumination sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user prediction module which are connected with each other;
the PLC gateway is connected with the light main control chip through a PLC circuit, and the light sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the light main control chip.
Further, the illumination sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the wifi router.
Further, the time determining module is used for carrying out data transmission with the user terminal through the wifi router and is used for calling the current time in the user terminal process, the time determining module is used for sending the current time to the light main control chip, the light main control chip is used for obtaining the current time and generating a corresponding first adjusting instruction according to the current time, the light main control chip is used for sending the first adjusting instruction to the light adjusting device, and the light adjusting device is used for controlling the LED lamp to carry out corresponding light adjustment according to the first adjusting instruction.
Further, the illumination induction module performs data transmission with the user terminal through the wifi router and is used for calling the current display brightness in the user terminal process, and the illumination induction module sends the current display brightness to the lamplight main control chip; the illumination sensing module acquires the indoor current ambient light brightness and sends the indoor current ambient light brightness to the light main control chip; the light main control chip calculates a ratio coefficient of the indoor current ambient light brightness to the current display brightness, and generates a second adjusting instruction according to the ratio coefficient, the light main control chip sends the second adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to perform corresponding light adjustment according to the second adjusting instruction.
Further, the temperature sensing module is used for carrying out data transmission with the user terminal through the wifi router and is used for calling the current indoor temperature in the user terminal process, the temperature sensing module sends the current indoor temperature to the light main control chip, the light main control chip obtains the current indoor temperature and generates a corresponding third adjusting instruction according to the current indoor temperature, the light main control chip sends the third adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to carry out corresponding light adjustment according to the third adjusting instruction.
Further, the humidity sensing module is used for carrying out data transmission with the user terminal through the wifi router and is used for calling current indoor humidity in a user terminal process, the humidity sensing module sends the current indoor humidity to the light main control chip, the light main control chip obtains the current indoor humidity and generates a corresponding fourth adjusting instruction according to the current indoor humidity, the light main control chip sends the fourth adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to carry out corresponding light adjustment according to the fourth adjusting instruction.
Further, the climate determining module is used for carrying out data transmission with the user terminal through the wifi router and is used for calling daily climate information in a user terminal process, the climate determining module sends the daily climate information to the light main control chip, the light main control chip obtains the daily climate information and generates a corresponding fifth adjusting instruction according to the daily climate information, the light main control chip sends the fifth adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to carry out corresponding light adjustment according to the fifth adjusting instruction.
Further, the indoor lamplight rhythm system based on the PLC-BUS technology further comprises a plurality of heat sensing modules, wherein the plurality of heat sensing modules are respectively provided with a wifi wireless unit, the plurality of heat sensing modules are connected with a wifi router through the wifi wireless units in one-to-one correspondence, and then the plurality of heat sensing modules are switched to the user prediction module through the wifi router.
Further, the indoor lamplight rhythm system based on the PLC-BUS technology further comprises a household terminal deployed in a household, the plurality of thermal sensing modules are arranged in the household terminal in a one-to-one correspondence mode, and the thermal sensing modules are used for collecting thermal imaging of a user.
Further, the user prediction module acquires the user thermal imaging acquired by the thermal sensing module, judges the orientation position of the face of the user in the thermal imaging and generates a position dimming signal, the user prediction module sends the position dimming signal to the light main control chip, the light main control chip acquires the position dimming signal and generates a corresponding sixth adjusting instruction according to the position dimming signal, the light main control chip sends the position dimming signal to the light adjusting device, and the light adjusting device controls the light of the LED lamp to focus on the orientation position of the face of the user according to the position dimming signal.
The application provides an indoor lamplight rhythm system based on PLC-BUS technology, which has the following beneficial effects:
the utility model provides an indoor light rhythm system based on PLC-BUS technique, rhythm system includes network component, indoor light subassembly and factor response subassembly, and wherein, network component includes PLC gateway and wifi router, and the PLC gateway carries out data communication with wifi router; the indoor light assembly comprises a light main control chip, a light adjusting device and an LED lamp, wherein the light main control chip is connected with the light adjusting device, and the light adjusting device is arranged at the position of the LED lamp to adjust the lamp; the factor sensing component comprises an illumination sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user prediction module which are connected with each other; the PLC gateway is connected with the light main control chip through a PLC circuit, and the illumination sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the light main control chip, so that the corresponding rhythmic illumination change of the LED lamp along with indoor environment change is realized, and the technical effect of user experience is improved.
Drawings
FIG. 1 is a block diagram of one embodiment of an indoor light rhythmic system based on the PLC-BUS technology of the present application.
The implementation, functional features and advantages of the present application will be further described with reference to the accompanying drawings in conjunction with the embodiments.
Detailed Description
It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.
The technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.
It is noted that the terms "comprising," "including," and "having," and any variations thereof, in the description and claims of the present application and in the foregoing figures, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus. In the claims, specification, and drawings of this application, relational terms such as "first" and "second," and the like are used solely to distinguish one entity/operation/object from another entity/operation/object without necessarily requiring or implying any actual such relationship or order between such entities/operations/objects.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.
Referring to fig. 1, a block diagram of an indoor lamplight rhythm system based on PLC-BUS technology in an embodiment of the present application is shown;
the indoor lamplight rhythm system based on the PLC-BUS technology comprises a network component, an indoor lamplight component and a factor induction component, wherein,
the network component comprises a PLC gateway and a wifi router, and the PLC gateway and the wifi router are in data communication;
the indoor light assembly comprises a light main control chip, a light adjusting device and an LED lamp, wherein the light main control chip is connected with the light adjusting device, and the light adjusting device is arranged at the position of the LED lamp to adjust the lamp;
the factor sensing component comprises an illumination sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user prediction module which are connected with each other;
the PLC gateway is connected with the light main control chip through a PLC circuit, and the light sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the light main control chip.
Specifically, the light main control chip can be arranged on the PLC gateway or the electric lamp; the light main control chip is connected with the PLC gateway and the factor induction component respectively, so that the light main control chip can passively acquire a control instruction input by the user terminal and can actively acquire an indoor environment factor adjustment instruction sent by the factor induction component.
Example 1,
Appointed APP on the user terminal uploads control command to wifi router by oneself, and then the PLC gateway generates the power line carrier signal that corresponds with control command and transmits to light main control chip by the PLC circuit to light main control chip control light adjusting device carries out the regulation of scene to the electric light, thereby makes the electric light carry out rhythm transformation, for example: at 8:00 a.m., the brightness of the lamp is adjusted to 30%, and the color of the lamp is adjusted to be bright yellow.
EXAMPLE 2,
The above-mentioned illumination sensing module is located on the electric lamp to obtain LED ambient light through the ambient light around the illumination sensing module response electric lamp, and illumination sensing module is with LED ambient light uploading to light main control chip, then after the light main control chip obtained LED ambient light, obtain ambient light regulation data in the APP of user terminal through wifi router, this ambient light regulation data includes: the method comprises the steps of importing LED environment light and corresponding current environment light adjusting data into a preset weight algorithm after a light main control chip obtains the LED environment light and corresponding current environment light adjusting data, so as to obtain an illumination brightness value to be adjusted of the electric lamp, and finally, the light main control chip instructs a light adjusting device to correspondingly adjust the electric lamp according to the illumination brightness value to be adjusted.
The weight algorithm is as follows:
wherein alpha is the illumination brightness value to be adjusted, beta is the LED ambient light, a is the percentage of the preset time information reference quantity, b is the percentage of the preset climate information reference quantity, c is the percentage of the preset other lamp illumination information, and d is the percentage of the preset natural illumination information.
EXAMPLE 3,
The time determining module uses a wifi router as a bridge to perform signal transmission with the user terminal, acquires a current time value in the user terminal, so as to call corresponding scene data from a preset scene change list according to the current time data, and the lamp light main control chip acquires the scene data to instruct the lamp light adjusting device to correspondingly adjust the electric lamp according to the scene data.
EXAMPLE 4,
The temperature sensing module and the humidity sensing module are used for sensing indoor temperature and humidity to obtain a current temperature value and a current humidity value, the temperature sensing module and the humidity sensing module respectively send the current temperature value and the current humidity value to the light main control chip, the light main control chip adopts a temperature and humidity transformation algorithm to import the current temperature value and the current humidity value for calculation so as to obtain a light value to be adjusted, and the light value to be adjusted comprises a light brightness value and a light color value;
the temperature and humidity transformation algorithm comprises the following steps:
wherein X is the current temperature, Y is the current humidity, < >>For determining a first light value to be adjusted according to the current temperature, S σ For the second light value to be adjusted determined according to the current humidity, S 1 The value of the light to be adjusted is; it can be appreciated that->The absolute value of (2) is greater than 0 and the sum is less than or equal to 100%.
Specifically, the illumination sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the wifi router.
In one embodiment, the time determining module performs data transmission with the user terminal through the wifi router, and is used for calling the current time in the user terminal process, the time determining module sends the current time to the light main control chip, the light main control chip obtains the current time and generates a corresponding first adjusting instruction according to the current time, the light main control chip sends the first adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to perform corresponding light adjustment according to the first adjusting instruction.
In one embodiment, the illumination sensing module performs data transmission with the user terminal through the wifi router and is used for calling the current display brightness in the user terminal process, and the illumination sensing module sends the current display brightness to the lamplight main control chip; the illumination sensing module acquires the indoor current ambient light brightness and sends the indoor current ambient light brightness to the light main control chip; the light main control chip calculates the ratio coefficient of the indoor current ambient light brightness and the current display brightness, generates a second adjusting instruction according to the ratio coefficient, sends the second adjusting instruction to the light adjusting device, and controls the LED lamp to carry out corresponding light adjustment according to the second adjusting instruction.
In one embodiment, the temperature sensing module performs data transmission with the user terminal through the wifi router and is used for calling the current indoor temperature in the user terminal process, the temperature sensing module sends the current indoor temperature to the light main control chip, the light main control chip obtains the current indoor temperature and generates a corresponding third adjusting instruction according to the current indoor temperature, the light main control chip sends the third adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to perform corresponding light adjustment according to the third adjusting instruction.
In one embodiment, the humidity sensing module performs data transmission with the user terminal through the wifi router, and is used for calling current indoor humidity in a user terminal process, the humidity sensing module sends the current indoor humidity to the light main control chip, the light main control chip obtains the current indoor humidity and generates a corresponding fourth adjusting instruction according to the current indoor humidity, the light main control chip sends the fourth adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to perform corresponding light adjustment according to the fourth adjusting instruction.
In one embodiment, the climate determining module performs data transmission with the user terminal through the wifi router and is used for calling daily climate information in a user terminal process, the climate determining module sends the daily climate information to the light main control chip, the light main control chip obtains the daily climate information and generates a corresponding fifth adjusting instruction according to the daily climate information, the light main control chip sends the fifth adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to perform corresponding light adjustment according to the fifth adjusting instruction.
In one embodiment, the indoor lamplight rhythm system further comprises a plurality of thermal sensing modules, the plurality of thermal sensing modules are provided with wifi wireless units, the plurality of thermal sensing modules are connected with the wifi router through the wifi wireless units in one-to-one correspondence, and then the plurality of thermal sensing modules are connected with the user prediction module through the wifi router.
Specifically, the indoor lamplight rhythm system provided by the invention further comprises a home terminal arranged in a household, and a plurality of thermal sensing modules are arranged in the home terminal in a one-to-one correspondence manner and are used for collecting thermal imaging of a user.
In the specific implementation process, the user prediction module acquires the user thermal imaging acquired by the thermal sensing module, judges the orientation position of the face of the user in the thermal imaging and generates a position dimming signal, the user prediction module sends the position dimming signal to the light main control chip, the light main control chip acquires the position dimming signal and generates a corresponding sixth adjusting instruction according to the position dimming signal, the light main control chip sends the position dimming signal to the light adjusting device, and the light adjusting device controls the light of the LED lamp to focus on the orientation position of the face of the user according to the position dimming signal.
In summary, the application provides an indoor lamplight rhythm system based on a PLC-BUS technology, wherein the rhythm system comprises a network component, an indoor lamplight component and a factor induction component, the network component comprises a PLC gateway and a wifi router, and the PLC gateway and the wifi router are in data communication; the indoor light assembly comprises a light main control chip, a light adjusting device and an LED lamp, wherein the light main control chip is connected with the light adjusting device, and the light adjusting device is arranged at the position of the LED lamp to adjust the lamp; the factor sensing component comprises an illumination sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user prediction module which are connected with each other; the PLC gateway is connected with the light main control chip through a PLC circuit, and the illumination sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the light main control chip, so that the corresponding rhythmic illumination change of the LED lamp along with indoor environment change is realized, and the technical effect of user experience is improved.
Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. An indoor lamplight rhythm system based on PLC-BUS technology is characterized by comprising a network component, an indoor lamplight component and a factor induction component, wherein,
the network component comprises a PLC gateway and a wifi router, and the PLC gateway and the wifi router are in data communication;
the indoor light assembly comprises a light main control chip, a light adjusting device and an LED lamp, wherein the light main control chip is connected with the light adjusting device, and the light adjusting device is arranged at the position of the LED lamp to adjust the lamp;
the factor sensing assembly comprises an illumination sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user prediction module which are connected with each other;
the PLC gateway is connected with the light main control chip through a PLC circuit, the illumination sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user predicting module are respectively connected with the light main control chip,
the system comprises a light sensing module, a time determining module, a temperature sensing module, a humidity sensing module, a climate determining module and a user prediction module, wherein the light sensing module, the time determining module, the temperature sensing module, the humidity sensing module, the climate determining module and the user prediction module are respectively connected with a wifi router, the time determining module is used for carrying out data transmission with a user terminal through the wifi router and is used for calling the current time in a user terminal process, the time determining module sends the current time to a light main control chip, the light main control chip obtains the current time and generates a corresponding first adjusting instruction according to the current time, the light main control chip sends the first adjusting instruction to a light adjusting device, and the light adjusting device controls an LED lamp to carry out corresponding light adjustment according to the first adjusting instruction; the illumination sensing module performs data transmission with the user terminal through the wifi router and is used for calling the current display brightness in the user terminal process, and the illumination sensing module sends the current display brightness to the lamplight main control chip; the illumination sensing module acquires the indoor current ambient light brightness and sends the indoor current ambient light brightness to the light main control chip; the light main control chip calculates a ratio coefficient of the indoor current ambient light brightness to the current display brightness, and generates a second adjusting instruction according to the ratio coefficient, the light main control chip sends the second adjusting instruction to the light adjusting device, and the light adjusting device controls the LED lamp to perform corresponding light adjustment according to the second adjusting instruction.
2. The indoor lamplight rhythm system based on the PLC-BUS technology according to claim 1, wherein the temperature sensing module is used for carrying out data transmission with a user terminal through a wifi router and is used for calling the current indoor temperature in a user terminal process, the temperature sensing module is used for sending the current indoor temperature to a lamplight main control chip, the lamplight main control chip is used for obtaining the current indoor temperature and generating a corresponding third adjusting instruction according to the current indoor temperature, the lamplight main control chip is used for sending the third adjusting instruction to a lamplight adjusting device, and the lamplight adjusting device is used for controlling an LED lamp to carry out corresponding lamplight adjustment according to the third adjusting instruction.
3. The indoor lamplight rhythm system based on the PLC-BUS technology according to claim 1, wherein the humidity sensing module is used for carrying out data transmission with a user terminal through a wifi router and is used for calling current indoor humidity in a user terminal process, the humidity sensing module is used for sending the current indoor humidity to a lamplight main control chip, the lamplight main control chip is used for obtaining the current indoor humidity and generating a corresponding fourth adjusting instruction according to the current indoor humidity, the lamplight main control chip is used for sending the fourth adjusting instruction to a lamplight adjusting device, and the lamplight adjusting device is used for controlling an LED lamp to carry out corresponding lamplight adjustment according to the fourth adjusting instruction.
4. The indoor lamplight rhythm system based on the PLC-BUS technology according to claim 1, wherein the climate determination module is used for carrying out data transmission with a user terminal through a wifi router and is used for calling daily climate information in a user terminal process, the climate determination module is used for sending the daily climate information to a lamplight main control chip, the lamplight main control chip is used for obtaining the daily climate information and generating a corresponding fifth adjusting instruction according to the daily climate information, the lamplight main control chip is used for sending the fifth adjusting instruction to a lamplight adjusting device, and the lamplight adjusting device is used for controlling an LED lamp to carry out corresponding lamplight adjustment according to the fifth adjusting instruction.
5. The indoor lamplight rhythm system based on the PLC-BUS technology according to claim 1, further comprising a plurality of heat sensing modules, wherein the plurality of heat sensing modules are respectively provided with a wifi wireless unit, the plurality of heat sensing modules are connected with a wifi router through the wifi wireless units in one-to-one correspondence, and then the plurality of heat sensing modules are connected with the user prediction module through the wifi router in a switching mode.
6. The indoor lamplight rhythm system based on the PLC-BUS technology according to claim 5, further comprising a home terminal deployed in a home, wherein the plurality of thermal sensing modules are arranged in the home terminal in a one-to-one correspondence manner, and the thermal sensing modules are used for collecting thermal imaging of a user.
7. The indoor lamplight rhythm system based on the PLC-BUS technology according to claim 1, wherein the user prediction module obtains the user thermal imaging collected by the thermal sensing module, judges the orientation position of the face of the user in the thermal imaging and generates a position dimming signal, the user prediction module sends the position dimming signal to a lamplight main control chip, the lamplight main control chip obtains the position dimming signal and generates a corresponding sixth adjusting instruction according to the position dimming signal, the lamplight main control chip sends the position dimming signal to a lamplight adjusting device, and the lamplight adjusting device controls lamplight of the LED lamp to focus on the orientation position of the face of the user according to the position dimming signal.
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