CN108055746B - Method and system for controlling ambient lighting by using smart phone - Google Patents

Abstract

The invention discloses a method and a system for controlling ambient lighting by using a smart phone, and on one hand, the invention provides a method for controlling ambient lighting by using a smart phone, which comprises the following steps: (1) establishing a lamp module management system on a smart phone with a photosensitive probe; (2) extracting ambient light intensity data of a photosensitive probe of the smart phone; (3) and selecting a proper lighting mode according to the ambient light intensity data and sending the lighting mode to the lamp module in a wireless mode. In another aspect, the present invention provides a system for controlling ambient lighting using a smartphone. According to the invention, the light intensity of the environment is detected in real time through the photosensitive detection module of the smart phone, and the light intensity is adjusted in real time through the detection result, so that the user requirements can be met.

Description

Method and system for controlling ambient lighting by using smart phone

Technical Field

The invention relates to the field of lamp regulation, in particular to a method for controlling environmental lighting by using a smart phone and a system for controlling the environmental lighting by using the smart phone.

Background

At present, the LED gradually replaces the traditional light source due to the advantages of energy conservation, environmental protection, high luminous efficiency, long service life and the like. With the progress of science and technology and the improvement of life quality, the control level of LED illumination is required to be higher and higher. In order to realize secondary energy conservation and meet the situation requirements, people hope to realize brightness adjustment and freely adjust the brightness of lamplight, thereby improving the life quality.

In the existing LED control system or device, a control device is usually provided and fixedly installed at a certain position, and the control device is operated when adjustment is needed; meanwhile, a corresponding remote control corresponding to the LED is arranged for control, but when the remote controller cannot be found or is not nearby, the adjustment cannot be carried out. Therefore, the existing control mode is troublesome and cannot meet the requirement of real-time adjustment of a user, or equipment is automatically adjusted according to the environment where the user is located so as to meet the use requirement of the user.

Disclosure of Invention

The invention aims to provide a method for controlling ambient lighting by using a smart phone, which can be automatically adjusted according to the environment of a user so as to meet the requirements of the user.

The second purpose of the invention is to provide a system for realizing the method.

To achieve the first purpose, a method for controlling ambient lighting by using a smart phone is provided, which comprises the following steps: (1) establishing a lamp module management system on a smart phone with a photosensitive probe; (2) extracting ambient light intensity data of a photosensitive probe of the smart phone; (3) and selecting a proper lighting mode according to the ambient light intensity data and sending the lighting mode to the lamp module in a wireless mode.

Preferably, the luminaire module management system in step (1) includes a detection module for starting the system to extract the ambient light intensity data, a processing module for comparing the extracted ambient light intensity data with data in the database and providing instructions according to the comparison result, a comfort lighting database for storing comfort lighting data corresponding to the environmental factors, and a setting module for individual lighting selection or setting.

Preferably, the detection module controls the photosensitive probe to detect the ambient light intensity data and perform registration monitoring by calling a photosensitive probe control system in the smart phone, so that the smart phone can obtain the data of real-time detection illumination.

Preferably, the processing module is provided with a data comparison table, the data comparison table is established by comparing a plurality of groups of measured real illumination data with data detected by the detection module, and the data comparison table is used for comparison and calling after the processing module receives the detection data of the detection module, so that the accuracy of real-time detection data is improved.

Preferably, the reference table is a luminance data table from 0lux to 1000lux with an interval of 1 lux.

Preferably, the setting module establishes a user setting database according to the autonomous setting of the user, and automatically calls the user setting database when the user is used.

Preferably, the comfort lighting database establishes a standard database by acquiring the illumination standards of different environments, different times and different geographical positions, and is invoked by the processing module and used for prompting the user for selection when in use.

Preferably, the processing module enables a user to confirm the use of the smart phone through a display screen of the smart phone, displays the set data of the user through the setting module and the comfortable lighting data corresponding to the current light intensity in the comfortable lighting database for the user to select, and displays the current light intensity at the same time.

In order to achieve the second purpose, the system for controlling the ambient lighting by using the smart phone comprises a lamp module, wherein the lamp module comprises an LED lamp module and an LED intelligent driving module for controlling and adjusting the LED lamp module; the LED intelligent driving module is in signal connection with a lamp module management system which is established on an intelligent mobile phone with a photosensitive probe and controls the LED intelligent driving module in real time, and the lamp module management system is provided with a detection module for starting the system to extract environmental data, a processing module for comparing the extracted environmental data with the data in a database and providing instructions according to the comparison result, a comfortable illumination database for storing comfortable illumination data corresponding to environmental factors and a setting module for personal illumination selection or setting; the processing module is in signal connection with the detection module, the processing module, the comfortable lighting database and the setting module respectively.

Preferably, the LED intelligent driving module includes a signal receiving module for performing wireless signal connection with the processing module, an MCU control module connected with the signal receiving module, and a first driving circuit and a second driving circuit respectively connected with the MCU control module for performing constant current driving on the LED lamp module, and the first driving circuit and the second driving circuit are respectively connected with the LED lamp module;

the LED lamp module is provided with a cool tone light source connected with the first driving circuit and a warm tone light source connected with the second driving circuit.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the light intensity of the environment is detected in real time by using the photosensitive detection module of the smart phone, and the lamp module is adjusted in real time according to the detection result, so that the user requirements are met. According to the invention, the light intensity detection is carried out by utilizing the photosensitive detection module of the smart phone, so that the detection result is more accurate, the detection is more convenient and simpler, and the photosensitive detection module is self-contained in the smart phone, so that the existing resources can be skillfully utilized, and the cost is effectively saved. According to the invention, the cold tone light source and the warm tone light source are respectively arranged for adjustment, so that the result is more accurate, the setting can be more satisfied, and the use quality of a user is improved. The processing module and the receiving module are connected through Bluetooth or WIFI, so that the existing resources can be effectively utilized for integration, the communication is stable and convenient, and the cost is saved.

Drawings

FIG. 1 is a flow chart of the present invention;

fig. 2 is a block diagram of a control system according to the present invention.

Detailed Description

The invention will now be further described with reference to the following examples, which are not to be construed as limiting the invention in any way, and any limited number of modifications which can be made within the scope of the claims of the invention are still within the scope of the claims of the invention.

As shown in fig. 1-2, the present invention provides a method for controlling ambient lighting using a smart phone, comprising the steps of: (1) establishing a lamp module management system 100 on a smartphone with a photosensitive probe; (2) extracting ambient light intensity data of a photosensitive probe of the smart phone; (3) and selecting a proper lighting mode according to the ambient light intensity data and sending the lighting mode to the lamp module 1 in a wireless mode.

The lamp module management system in the step (1) comprises a detection module 3 for starting the system to extract the ambient light intensity data, a processing module 4 for comparing the extracted ambient light intensity data with the data in the database and providing instructions according to the comparison result, a comfortable lighting database 5 for storing the comfortable lighting data corresponding to the ambient factors, and a setting module 6 for individual lighting selection or setting.

The detection module 3 controls the photosensitive probe to detect the ambient light intensity data and register and monitor by calling a photosensitive probe control system in the smart phone, so that the smart phone can obtain the data of real-time detection illumination.

The processing module 4 is provided with a data comparison table, the data comparison table is established by comparing a plurality of groups of measured real illumination data with data detected by the detection module 3, and the data comparison table is used for comparing and calling the processing module 4 after receiving the detection data of the detection module 3, so that the accuracy of real-time detection data is improved. The reference table is a luminance data table from 0lux to 1000lux with an interval of 1 lux.

In this embodiment, the photosensitive detection head of the smart phone can detect the intensity of light directly facing the panel of the smart phone, and when "automatically adjust the screen brightness display of the smart phone" is selected on the smart phone, the smart phone can automatically adjust the screen display brightness. By utilizing the photosensitive detection head to detect the intensity of the light of the environment where the user is located, the detected data is more accurate, and the smart phone is fully utilized. The lamp module management system 100 established on the smart phone may be an APP, which performs real-time ambient light intensity detection through the detection module 3 and processes through the processing module 4. The processing comprises the verification for dealing with the difference of data because the photosensitive detection element of each mobile phone is different; because the illumination brightness of the indoor lighting is 0-500lux, the daylight brightness is 200-.

In this embodiment, in the design of the lamp module management system 100, the sensor controller of the smartphone system is obtained by calling an internal resource function of the smartphone system; thereby further acquiring the photosensitive sensor; and registering and monitoring the photosensitive sensor of the smart phone system, so that the data of the real-time detection illumination of the photosensitive sensor of the smart phone can be obtained. The data of the photosensitive sensor can be acquired once every 400 milliseconds, the data is different from 0 to 30000, and specific numerical values are different from different mobile phones, so that a data comparison table needs to be established, and the accuracy of real-time data detection is improved.

In this embodiment, the data lookup table establishment process is as follows: because the ambient brightness parameter read from the inside of the smart phone is 0-30000, 60 groups of data, such as 10lux to 600lux average interval, are detected by the metered illuminometer and compared with the data detected by the detection module 3 in the same environment, so as to establish a comparison table. The comparison table adopts a linear interpolation mode to extrapolate and interpolate data to construct a brightness data table from 0lux to 1000lux at an interval of 1 lux. In the later use process, a table look-up mode is adopted, and the accurate illumination parameters on the front side of the mobile phone can be obtained through the smart phone, so that the error can be controlled below 1 lux.

The setting module 6 establishes a user setting database according to the user's autonomous setting and automatically calls when in use. The comfort lighting database 5 establishes a standard database by obtaining the illumination standards of different environments, different times and different geographical locations, and is invoked by the processing module 4 and used for selection prompts to the user when in use. The processing module 4 enables a user to confirm the use of the smart phone through a display screen of the smart phone, displays the set data of the user through the setting module 6 and the comfortable lighting data corresponding to the current light intensity in the comfortable lighting database 5 for the user to select, and displays the current light intensity at the same time.

In this embodiment, APP operates through processing module 4's data and relevant warning, according to current geographical environment, time, combine the condition that lamps and lanterns used, refer to light environment standard, whether light intensity data through detection module 3 detection position is suitable, and automatic or remind the user to set up the colour temperature and the luminance of controlled lamps and lanterns, prevent and correct the lamp custom of misuse, can energy-concerving and environment-protective effect, more importantly plays ophthalmic diseases such as prevention myopia, astigmatism:

in the present embodiment, the illuminance standards of various lighting environments in the comfort lighting database 5: reference is made to international standards. Such as: reading environment: 150-; living room TV leisure environment: 75 lux; the contrast between the brightness of the surrounding floodlight environment and the functional illumination of a certain area is not more than 5 times, otherwise, uncomfortable dazzling glare can be generated; at night, after the night, the ambient illumination is 10-30 lux; reading light color temperature: 5000K-6500K, should be free of uncomfortable blue light.

The processing module 4 is connected with the LED intelligent driving module 2 in a wireless communication mode so as to control the lamp module. Thereby making communication more convenient and simple.

As shown in fig. 2, the present invention can also control the whole lighting in the area, such as the whole home lighting in a family, the scene lighting in a hotel lobby, the intelligent lighting in a hotel guest room, etc., through a plurality of detected accurate brightness parameters in the area in a humanized and intelligent manner. Thereby improving the control range and operability.

As shown in fig. 2, the invention further provides a system for controlling ambient lighting by using a smart phone, which comprises a lamp module, wherein the lamp module comprises an LED lamp module 1 and an LED intelligent driving module 2 for controlling and adjusting the LED lamp module 1; the LED intelligent driving module 2 is in signal connection with a lamp module management system 100 which is established on a smart phone with a photosensitive probe and controls the LED intelligent driving module 2 in real time, the lamp module management system 100 is provided with a detection module 3 for starting the system to extract environment data, a processing module 4 for comparing the extracted environment data with the data in a database and providing instructions according to the comparison result, a comfortable lighting database 5 for storing comfortable lighting data corresponding to environmental factors and a setting module 6 for personal lighting selection or setting; the processing module 4 is respectively in signal connection with the detection module 3, the processing module 4, the comfortable lighting database 5, the setting module 6 and the LED intelligent driving module 2.

The LED intelligent driving module 2 comprises a signal receiving module 24 used for being in wireless signal connection with the processing module 4, an MCU control module 23 connected with the signal receiving module 24, and a first driving circuit 21 and a second driving circuit 22 which are respectively connected with the MCU control module 23 and used for carrying out constant current driving on the LED lamp module 1, wherein the first driving circuit 21 and the second driving circuit 22 are respectively connected with the LED lamp module 1. The LED lamp module 1 is provided with a cool tone light source 11 connected to a first drive circuit 21 and a warm tone light source 12 connected to a second drive circuit 22. The processing module 4 is connected with the receiving module 24 through bluetooth or WIFI.

In this embodiment, 6500K cold color temperature light source 11 and 2700K warm color temperature light source 12 are installed in the LED lamp module 1, and the magnitude of the constant current driving current output by the first driving circuit 21 and the second driving circuit 22 is controlled respectively, so that lights with different color temperatures and different brightnesses can be adjusted, and the LED lamp module can best meet the lighting requirements of people.

In this embodiment, the MCU control module 23 in the LED intelligent driving module 2 is a single-chip MCU control system, and the MCU control module 23 intelligently adjusts the outputs of the first driving circuit 21 and the second driving circuit 22 according to the adjustment command sent by the smart phone, so as to achieve the controllable intelligent driving function of the LED lamp. The first driving circuit 21 and the second driving circuit 22 can receive the PWM control square wave signal of the MCU control module 23, and linearly adjust the magnitude of the output constant current according to the magnitude of the duty ratio to drive the cold color temperature light source 11 and the warm color temperature light source 12, respectively.

In this embodiment, when the processing module 4 and the receiving module 24 communicate in a bluetooth manner, the LED intelligent driving module 2 and the corresponding LED lamp module 1 within a range of 10m can be controlled; when the processing module 4 and the receiving module 24 communicate in a WiFi manner, the communication range can be expanded, and all the LED intelligent driving modules 2 and the corresponding LED lamp modules 1 in a certain area can be controlled; the processing module 4 and the receiving module 24 communicate in a WiFi manner through a router.

In the embodiment, the light module management system 100 performs real-time detection on the light intensity of the environment where the user is located through the detection module 3, the processing module 4 calls the comparison table according to real-time detection data to obtain a real light intensity value, the processing module 4 prompts the user to use and confirm on the display screen through the APP on the smart phone, and displays the setting data of the user through the setting module 6 and the comfortable lighting data corresponding to the current light intensity in the comfortable lighting database 5 for the user to select, and displays the current light intensity. The processing module 4 sends corresponding control signals to the LED intelligent driving module 2 in a wireless mode according to the selection of a user, the LED intelligent driving module 2 respectively controls the magnitude of constant current driving currents output by the first driving circuit 21 and the second driving circuit 22, and lamplight with different color temperatures and different brightness can be adjusted to best meet the lighting requirements of people.

The invention can detect and control the intensity of the light of the environment where the user is located in real time, thereby meeting the use requirements of the user.

The above is only a preferred embodiment of the present invention, and it should be noted that it is obvious to those skilled in the art that several variations and modifications can be made without departing from the structure of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (6)

1. A method for controlling ambient lighting using a smartphone, comprising the steps of: (1) establishing a lamp module management system on a smart phone with a photosensitive probe; (2) extracting ambient light intensity data of a photosensitive probe of the smart phone; (3) selecting a proper lighting mode according to the ambient light intensity data and sending the lighting mode to the lamp module in a wireless mode;

the lamp module management system in the step (1) comprises a detection module for starting the system to extract the environmental light intensity data, a processing module for comparing the extracted environmental light intensity data with the data in the database and providing instructions according to the comparison result, a comfortable illumination database for storing the comfortable illumination data corresponding to the environmental factors and a setting module for individual illumination selection or setting;

the setting module establishes a user setting database according to the autonomous setting of a user and automatically calls the user setting database when the user setting database is used;

the processing module enables a user to confirm the use of the smart phone through a display screen of the smart phone, displays the set data of the user through the setting module and the comfortable lighting data corresponding to the current light intensity in the comfortable lighting database for the user to select, and simultaneously displays the current light intensity;

the comfortable illumination database establishes a standard database by acquiring illumination standards of different environments, different times and different geographical positions, and is called by the processing module and used for prompting selection of a user when in use.

2. The method of claim 1, wherein the method comprises: the detection module controls the photosensitive probe to detect the ambient light intensity data and register and monitor by calling the photosensitive probe control system in the smart phone, so that the smart phone can obtain the data of real-time detection illumination.

3. The method of claim 1, wherein the method comprises: the processing module is provided with a data comparison table, the data comparison table is established by comparing a plurality of groups of measured real illumination data with data detected by the detection module, and the data comparison table is used for comparison and calling after the processing module receives the detection data of the detection module, so that the accuracy of real-time detection data is improved.

4. The method of claim 3, wherein the method comprises: the reference table is a luminance data table from 0lux to 1000lux with an interval of 1 lux.

5. A system for controlling ambient lighting with a smartphone according to the method of claim 1, comprising a luminaire module, characterized in that: the lamp module comprises an LED lamp module and an LED intelligent driving module for controlling and adjusting the LED lamp module; the LED intelligent driving module is in signal connection with a lamp module management system which is established on an intelligent mobile phone with a photosensitive probe and controls the LED intelligent driving module in real time, and the lamp module management system is provided with a detection module for starting the system to extract environmental data, a processing module for comparing the extracted environmental data with the data in a database and providing instructions according to the comparison result, a comfortable illumination database for storing comfortable illumination data corresponding to environmental factors and a setting module for personal illumination selection or setting; the processing module is in signal connection with the detection module, the processing module, the comfortable lighting database and the setting module respectively.

6. The system for controlling the illumination of the environment by using the smart phone as recited in claim 5, wherein: the LED intelligent driving module comprises a signal receiving module used for being in wireless signal connection with the processing module, an MCU control module connected with the signal receiving module, a first driving circuit and a second driving circuit which are respectively connected with the MCU control module and used for carrying out constant current driving on the LED lamp module, and the first driving circuit and the second driving circuit are respectively connected with the LED lamp module;

the LED lamp module is provided with a cool tone light source connected with the first driving circuit and a warm tone light source connected with the second driving circuit.

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