CN113382508B

CN113382508B - Intelligent lamp brightening control system based on digital network

Info

Publication number: CN113382508B
Application number: CN202110631521.7A
Authority: CN
Inventors: 王�华; 李华瑾
Original assignee: Wuhan Aijin Technology Co ltd
Current assignee: Wuhan Aijin Technology Co ltd
Priority date: 2021-06-07
Filing date: 2021-06-07
Publication date: 2024-07-19
Anticipated expiration: 2041-06-07
Also published as: CN113382508A

Abstract

The invention discloses a lamp brightening intelligent control system based on a digital network, and particularly relates to the technical field of digital light control. According to the invention, the manual adjusting module and the infrared pyroelectric sensor are arranged, so that the system can timely adjust and control and inquire the lamplight according to the use condition and rule of a user in the use process, and can control the indoor lamplight when the user goes out, so that the condition that the user can not enter the room when the user knows the room outside is greatly reduced, and the system can start an outgoing mode when the user knows the room for a long time without a human heat source under the action of the infrared pyroelectric sensor, the intelligent control effect of the system is improved, the indoor theft during the unmanned is reduced, and the electricity consumption condition of the lamp is saved to a certain extent.

Description

Intelligent lamp brightening control system based on digital network

Technical Field

The invention relates to the technical field of digital light control, in particular to a digital network-based intelligent lamp brightening control system.

Background

In recent years, energy conservation and low cost are generally considered as importance, however, the existing illumination control system still stays in a manual on-off control mode, but with the gradual development of intellectualization, intelligent voice control gradually replaces most of manual control modes, however, during the intellectualization control, only dead control can often be performed on illumination according to instructions of a user, so that if the user forgets to turn off illumination or the user is not in a room during use, the illumination in the room is difficult to turn on or off, not only the condition that the room is stolen due to long-time unmanned condition is easily caused, but also a large amount of power is consumed when the illumination is not turned off.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a lamp brightening intelligent control system based on a digital network, which aims to solve the technical problems that: however, during intelligent control, the lamp illumination can be controlled only by a dead plate according to a user instruction, so that if a user forgets to turn off the lamp illumination or the user is not in a room during use, the lamp illumination in the room is difficult to turn on or off, the problem that the indoor is stolen due to long-time unmanned condition is easily caused, and a large amount of power is consumed under the condition that the lamp illumination is not turned off is caused.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a lamp brightening intelligent control system based on digital network, includes account authentication module, account authentication module's output is connected with central processing unit's input electricity, central processing unit's output is connected with account authentication module, data analysis module, data collection module and brightness detection module's input respectively, data analysis module's output is connected with contrast module's input electricity, data collection module's output is connected with contrast module's input electricity, contrast module's output is connected with data collection module's input electricity, data collection module's output is connected with central processing unit's input electricity, central processing unit's output is connected with manual regulation module's input electricity, manual regulation module's output is connected with account authentication module's input and central processing unit's input electricity respectively, account authentication module's output is connected with infrared pyroelectric inductor's input electricity.

As a further aspect of the invention: the account authentication module comprises a face recognition module and a fingerprint authentication module, wherein the face recognition module is electrically connected with the central processing unit through a camera, so that after the control system is purchased, the system owner can bind the system through the face recognition, the system can intelligently identify the owner or the intruder in the subsequent use process, the fingerprint authentication module has the same function as the face recognition module, meanwhile, the system has the additional main recognition function when the system is purchased for the first time, and after the main recognition is finished, the system owner can correspondingly adjust and apply the manual adjustment module.

As a further aspect of the invention: the manual regulation module comprises a voice input module, a mode regulation module, a data modification module and a brightness regulation module, wherein the voice input module regulates and controls indoor lamplight in a voice input mode after an owner finishes recognition in a fingerprint or face mode, specific making instructions are transmitted to the mode regulation module, the data modification module and the brightness regulation module for specific implementation, the mode regulation module is divided into a daily mode, an outgoing mode, a regulation mode and an adaptation mode, when the daily mode is applied, the system can inquire whether the owner needs to turn on or turn off the lamp illumination in a proper time through data of a central processing unit and daily use of the owner, or can regulate the intensity of the lamp illumination in a designated time, when the outgoing mode is applied, the indoor lamplight can be turned on at a position which is close to a window or outside, and the indoor lamplight can be intermittently turned on and off, the lamp can be regulated and controlled according to the relative common operation rule time of the system on the internet, when the regulation mode is performed manually according to the user after the user performs or recognizes the fingerprint, the data is compared with the daily data of the system, when the data is extracted from the daily data of the system, the system is compared with the daily data of the user, the data is collected by the daily data module, the network module is compared with the daily data of the system, the data is compared with the daily regulation module, when the data is collected by the daily data module, the data is compared with the daily regulation module, and the data is compared with the data of the daily regulation module, and the data is compared with the data, and the data is collected, and the data is stored, and has the data is stored. And can play an auxiliary role for the health lamp.

As a further aspect of the invention: the data modification module jumps to the data modification interface after the system is authenticated by the face recognition module and the fingerprint recognition module for use as an owner, the owner can adjust the data according to the preference and brightness and the use time when the system is used by the owner, and the data adjusted by the owner can be transmitted to the central processing unit for storage.

As a further aspect of the invention: the data collection module collects the time of using the lights in the network and the light data of the system area in real time, the collected data are transmitted to the CPU, the data analysis module counts the light illumination used at each time, and the relevance of the time and the light brightness is analyzed in the counting process.

As a further aspect of the invention: the comparison module compares the network data collected by the data collection module, the adjustment data of the owners and the use data, and indicates the compared adjustment data of the owners, prompts the owners whether the adjustment data need to be adjusted again, and when the users listen to the prompt of the system for fine adjustment, the system can place the use data in the network behind the adjustment data of the owners so as to provide reference for the use of the modification data.

The brightness detection module extracts and compares the indoor illumination brightness and the outdoor illumination brightness, so that when the outdoor illumination brightness is overlarge in an outgoing mode, the system does not need to use a control lamp, and when the external illumination brightness is too low, for example, at night, the system can also control the illumination brightness, and the power consumption of the lamp is reduced while the illumination intensity is maintained.

The infrared pyroelectric sensor is used for detecting whether the indoor use exists, when the infrared pyroelectric sensor detects that a heat source exists, for example, a human body heats, whether the lamp illumination display is required or not can be inquired, when the face recognition or fingerprint recognition is not carried out on the heat source and the voice input is not passed, the central processing unit can carry out alarm processing, and when the face recognition or fingerprint recognition is carried out on the heat source and the voice input is carried out on the heat source, the system can control and adjust the lamp illumination through data transmitted by the voice input module.

The invention has the beneficial effects that:

1. According to the invention, by arranging the manual regulation module, the infrared pyroelectric sensor and the central processing unit, when an outgoing mode is applied, indoor lamplight is started at a position close to a window or visible outside, the indoor lamplight is intermittently started and closed, and the system has relatively universal operation and rest regular time for regulating and controlling the starting and closing of the lamplight, so that the system can regulate and control the lamplight in time and inquire according to the use condition and rule of a user in the use process, and can effectively control the indoor lamplight when the user goes out, thereby greatly reducing the condition of intrusion caused by outside cognition of indoor unmanned air, and under the action of the infrared pyroelectric sensor, the system automatically starts the outgoing mode when the indoor cognition of indoor unmanned air source is long, thereby greatly improving the intelligent control effect of the system, not only reducing the indoor power consumption condition of the lamp when the user is unmanned air, but also saving the electricity consumption condition of the lamplight to a certain extent;

2. According to the invention, the comparison module and the data collection module are arranged, and the comparison module compares the network data collected by the data collection module and the adjustment data and the use data of the owners, and the compared adjustment data of the owners are corrected, so that the owners are prompted whether the adjustment data need to be readjusted, when the users listen to the prompt of the system for fine adjustment, the system can place the use data in the network behind the adjustment data of the owners, so that references are provided for the users who use the modification data, and the system has the advantages of providing auxiliary adjustment for new users who are not aware of how to set.

Drawings

FIG. 1 is a schematic diagram of a system of the present invention;

In the figure: the system comprises a1 account authentication module, a2 central processing unit, a3 data analysis module, a4 comparison module, a 5 data collection module, a 6 brightness detection module, a7 infrared pyroelectric sensor and an 8 manual adjustment module.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in digital light control of the figure, the invention provides a lamp brightening intelligent control system based on a digital network, which comprises an account authentication module 1, wherein the output end of the account authentication module 1 is electrically connected with the input end of a central processing unit 2, the output end of the central processing unit 2 is respectively electrically connected with the input ends of the account authentication module 1, a data analysis module 3, a data collection module 5 and a brightness detection module 6, the output end of the data analysis module 3 is electrically connected with the input end of a comparison module 4, the output end of the data collection module 5 is electrically connected with the input end of the comparison module 4, the output end of the comparison module 4 is electrically connected with the input end of the data collection module 5, the output end of the data collection module 5 is electrically connected with the input end of the central processing unit 2, the output end of the central processing unit 2 is electrically connected with the input end of a manual adjustment module 8, the output end of the manual adjustment module 8 is respectively electrically connected with the input end of the account authentication module 1 and the input end of the central processing unit 2, and the output end of the account authentication module 1 is electrically connected with the input end of an infrared pyroelectric sensor 7.

The account authentication module 1 comprises a face recognition module and a fingerprint authentication module, wherein the face recognition module is electrically connected with the central processing unit 2 through a camera, so that after the control system is purchased, the system owner can bind the system through the face recognition, the system can intelligently identify the owner or the intruder in the subsequent use process, the fingerprint authentication module has the same function as the face recognition module, meanwhile, the system has the additional main recognition function when the system is purchased for the first time, and the system owner can correspondingly adjust and apply the manual adjustment module 8 after the main recognition is finished.

The manual adjustment module 8 comprises a voice input module, a mode adjustment module, a data modification module and a brightness adjustment module, wherein the voice input module can regulate and control indoor lamplight in a voice input mode after an owner confirms the owner in a fingerprint or face mode, specific making instructions can be transmitted to the mode adjustment module, the data modification module and the brightness adjustment module for specific implementation, the mode adjustment module is divided into a daily mode, an outgoing mode, an adjustment mode and an adaptation mode, when the daily mode is applied, the system can inquire whether the owner needs to turn on or off the lamp illumination at a proper time through data of the central processing unit 2 and daily use of the owner, or can adjust the intensity of the lamp illumination at a designated time when the outgoing mode is applied, the indoor light can be started at a position close to a window or visible outside, the indoor light is intermittently started and closed, the light is controlled to be started and closed according to the relatively common operation and rest regular time of the system on the internet, the module for controlling the inside of the system is manually controlled according to the face recognition or fingerprint recognition of a user during the adjustment mode, the system extracts the data in the network through the data collecting module 5 and the data analyzing module 3 and transmits the data in the network to the inner wall of the comparison module 4, the manual adjustment module 8 also transmits the data when the owner adjusts the system daily to the inside of the comparison module 4, the comparison module 4 compares the big data in the network with the daily preference of the user at the moment, and prompts the user when the user has a 50% difference from the big data, and can play an auxiliary role for the health lamp.

The data modification module jumps to the data modification interface after the system is authenticated by the face recognition module and the fingerprint recognition module for use as an owner, at the moment, the owner can adjust according to the preference and brightness and the use time when the system is used by the owner, and the data when the owner adjusts can be transmitted to the central processing unit 2 for storage.

The data collection module 3 collects the time of using the lights in the network and the light data of the system area in real time, and transmits the collected data to the central processing unit 2, and the data analysis module 3 counts the light illumination used at each time, and analyzes the relevance of the time and the light illumination in the process of counting.

The comparison module 4 compares the network data collected by the data collection module 5 and the adjustment data and the usage data of the owner, and indicates the adjusted data of the owner after comparison, so as to prompt the owner whether to readjust the adjusted data, when the user listens to the prompt of the system for fine tuning, the system will place the usage data in the network behind the adjusted data of the owner, so as to provide a reference for using the modified data.

The brightness detection module 6 extracts and compares the indoor illumination brightness and the outdoor illumination brightness, so that when the outdoor illumination brightness is too high in the outdoor mode, the system can also control the illumination brightness without using a control lamp, and when the external illumination brightness is too low, for example, at night, the system can also control the illumination brightness, and reduce the power consumption during illumination while maintaining the illumination intensity.

The infrared pyroelectric sensor 7 is used for detecting whether the indoor use exists, when the infrared pyroelectric sensor 7 detects that a heat source exists, for example, a human body heats, whether the lamp illumination display is required or not can be inquired, when the face recognition or fingerprint recognition is not performed on the heat source and the voice input is not passed, the central processing unit 2 can perform alarm processing, and when the face recognition or fingerprint recognition is performed on the heat source and the voice input is passed, the system can control and adjust the lamp illumination through the data transmitted by the voice input module.

Through setting up manual regulation module 8, infrared pyroelectric inductor 7 and central processing unit 2, when using the mode of going out, indoor light then can be in the position that is close to window or external can see and open the lamp in the room with intermittent type nature, and more have the system on the net relatively general work and rest regular time and regulate and control opening and closing of lamp, make this system in the in-process of using, not only can carry out timely regulation and control and inquiry to the lamp according to user's service condition and law, and when using and go out, can effectually control indoor light, the condition that goes into appears in the cognitive indoor unmanned of external world has greatly reduced, and under the effect of infrared pyroelectric inductor, the indoor long-time unmanned heat source of cognitive of this system then can automatic start the mode, intelligent control effect of this system has been greatly improved, indoor quilt when unmanned, and the power consumption condition of lamp is stolen has been practiced thrift to a certain extent.

By providing the comparison module 4 and the data collection module 5, when fine tuning is performed using prompts listening to the system, the system will then place usage data in the network behind the owner adjustment data to provide a reference for use of the modification data, thereby providing an auxiliary adjustment effect for novice users who are unaware of how to set up, providing applicability to the system.

The last points to be described are: while the invention has been described in detail in the foregoing general description and with reference to specific embodiments, the foregoing embodiments are merely illustrative of the technical aspects of the invention and are not limiting thereof; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. The utility model provides a lamp brightening intelligent control system based on digital network, includes account authentication module (1), its characterized in that: the output end of the account authentication module (1) is electrically connected with the input end of the central processing unit (2), the output end of the central processing unit (2) is electrically connected with the input ends of the account authentication module (1), the data analysis module (3), the data collection module (5) and the brightness detection module (6) respectively, the output end of the data analysis module (3) is electrically connected with the input end of the comparison module (4), the output end of the data collection module (5) is electrically connected with the input end of the data collection module (5), the output end of the data collection module (5) is electrically connected with the input end of the central processing unit (2), the output end of the central processing unit (2) is electrically connected with the input end of the manual adjustment module (8), the output end of the manual adjustment module (8) is electrically connected with the input end of the account authentication module (1) and the input end of the central processing unit (2) respectively, and the output end of the infrared authentication module (1) is electrically connected with the input end of the infrared sensor (7);

The manual regulation module (8) comprises a voice input module, a mode regulation module, a data modification module and a brightness regulation module, wherein the voice input module regulates and controls indoor lamplight in a voice input mode after an owner finishes identifying the owner in a fingerprint or face mode, a specific construction instruction is transmitted to the mode regulation module, the data modification module and the brightness regulation module for specific implementation, the mode regulation module is divided into a daily mode, an outgoing mode, a regulation mode and an adaptation mode, when the daily mode is applied, the system inquires the owner whether the lamp irradiation needs to be started or stopped through data of the central processing unit (2) and daily use of the owner at proper time, or adjust the intensity of the lamp at the appointed time, when the outdoor mode is applied, the indoor lamp is started at a position which is close to a window or can be seen by the outside, the indoor lamp is intermittently started and closed, the lamp is controlled to be started and closed according to the relatively common operation and rest regular time of the system on the internet, the module for controlling the inside of the system is manually operated according to the face recognition or fingerprint recognition of a user when the system is in the adjustment mode, the effect of the adaptation mode is that the system extracts the data in the network through the data collecting module (5) and the data analyzing module (3), the data are transmitted to the inner wall of the comparison module (4), the manual adjustment module (8) also transmits the data when the owner adjusts the system in daily life to the inside of the comparison module (4), at the moment, the comparison module (4) compares the big data in the network with the daily preference of the user, prompts the user when the user is 50% away from the big data, and can assist the health lamp.

2. The intelligent control system for lamp lighting based on the digital network according to claim 1, wherein: the account authentication module (1) comprises a face recognition module and a fingerprint authentication module, wherein the face recognition module is electrically connected with the central processor (2) through a camera, so that after the control system is purchased, the system owner can bind the system through the face recognition, the system can intelligently identify the owner or the intruder in the subsequent use process, the fingerprint authentication module has the same function as the face recognition module, and meanwhile, the system has the additional main recognition function when the user purchases for the first time, and the system owner can correspondingly adjust and apply the manual adjustment module (8) after the main recognition is finished.

3. The intelligent control system for lamp lighting based on the digital network according to claim 1, wherein: the data modification module jumps to the data modification interface after the system is authenticated by the face recognition module and the fingerprint recognition module for use as an owner, the owner can adjust the data according to the preference and brightness and the use time when the system is used by the owner, and the data adjusted by the owner can be transmitted to the central processing unit (2) for storage.

4. The intelligent control system for lamp lighting based on the digital network according to claim 1, wherein: the data collection module and the data analysis module (3) collect the time of using the lamp in the network and the lamp data of the system area in real time, the collected data are transmitted to the central processing unit (2), the data analysis module (3) counts the lamp illumination used at each time, and the correlation between the time and the lamp illumination brightness is analyzed in the counting process.

5. The intelligent control system for lamp lighting based on the digital network according to claim 1, wherein: the comparison module (4) compares the network data collected by the data collection module (5) and the adjustment data and the use data of the owners, and indicates the compared adjustment data of the owners, prompts the owners whether the adjustment data need to be readjusted, and when the users listen to the prompt of the system for fine adjustment, the system places the use data in the network behind the adjustment data of the owners so as to provide reference for the use of the modification data;

The brightness detection module (6) is used for extracting and comparing the indoor illumination brightness and the outdoor illumination brightness, so that when the outdoor illumination brightness is overlarge in an outgoing mode, the system does not need to use a control lamp for illumination, and when the external illumination brightness is too low, for example, at night, the system can also control the illumination brightness of the lamp, and the power consumption of the lamp is reduced when the illumination intensity is maintained;

The infrared pyroelectric sensor (7) is used for detecting whether the indoor use exists, when the infrared pyroelectric sensor (7) detects that a heat source exists, for example, a human body generates heat, whether the lamp illumination display is required or not can be inquired, when the heat source does not perform face recognition or fingerprint recognition and voice input does not pass, the central processing unit (2) can perform alarm processing, and when the heat source does perform face recognition or fingerprint recognition and voice input, the system can control and adjust the lamp illumination through data transmitted by the voice input module.