CN112040590A - LED ceiling lamp with induction and light control functions - Google Patents
LED ceiling lamp with induction and light control functions Download PDFInfo
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- CN112040590A CN112040590A CN202010941077.4A CN202010941077A CN112040590A CN 112040590 A CN112040590 A CN 112040590A CN 202010941077 A CN202010941077 A CN 202010941077A CN 112040590 A CN112040590 A CN 112040590A
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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]
- H05B45/10—Controlling the intensity of the light
- H05B45/12—Controlling the intensity of the light using optical feedback
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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
Abstract
The invention discloses an LED ceiling lamp with induction and light control functions, which can realize the adjustment of a switch of a lamp based on induction and light control through the matched use of a data acquisition module, a data preprocessing module, a data analysis module, a database, a processor, a control module and a transmission module; the data acquisition module is used for acquiring data information of a working environment of the lamp, the data preprocessing module is used for preprocessing the data information to obtain data processing information, the data processing information is transmitted to the data analysis module, the data analysis module is used for analyzing the data processing information to obtain data analysis information, and the control module is used for receiving and controlling the data analysis information sent by the data analysis module, so that the induction effect of the lamp can be effectively improved; the invention can solve the problems of poor induction effect of the lamp and low accuracy of induction on and off of the lamp.
Description
Technical Field
The invention relates to the technical field of lamps, in particular to an LED ceiling lamp with induction and light control functions.
Background
The LED ceiling lamp is installed in a room by adopting an LED as a light source, and the lamp is designed to be flat at the upper part, is installed close to a roof and is adsorbed on the roof, so the LED ceiling lamp is called as the LED ceiling lamp; along with the continuous heating up of the home decoration heat, the change of the ceiling lamp is also changed day by day, the ceiling lamp is not limited to the single lamp in the past, but is developed to diversification, the luxury and the style of the ceiling lamp are absorbed, the ceiling type installation mode is adopted, and the defect that a shorter room cannot be provided with large-scale luxury lamp decorations is overcome. The lamp body of the LED ceiling lamp is directly installed on the roof of a room, is suitable for being used for integral illumination and is usually used for living rooms and bedrooms.
Publication No. CN107906452A discloses an automatic light control street lamp, which comprises an outside corridor acquisition part and an inside corridor illumination part, wherein the outside corridor acquisition part comprises a solar energy acquisition part and a illuminance acquisition part; the solar energy collecting part comprises a mounting rod outside the corridor, a fixing plate, an expansion adjusting plate, a solar energy collecting plate and a storage battery; the storage battery is connected with an electric quantity sensor; the lighting part in the corridor comprises a corridor street lamp, a voice-operated switch, a light-operated switch and an intelligent switch; the corridor street lamp is respectively connected with a corridor power supply system and a storage battery through a corridor internal power transmission line and a corridor external power transmission line; the number of the sound control switches is two, one sound control switch and the intelligent switch are connected in series into a power transmission line in a corridor, and the intelligent switch is also connected with the electric quantity sensor; the other sound control switch and the light control switch are connected in series into an outer power transmission line of the corridor. The invention has novel structure and convenient installation and reconstruction; the lighting control system can effectively and accurately control the on-off of the light in the day and at night; can greatly improve the energy-saving effect and is suitable for popularization. The existing defects include: the problem of poor induction effect of the lamp exists, and the problem of low accuracy of induction on and off of the lamp exists; therefore, the LED ceiling lamp with the induction and light control functions is provided.
Disclosure of Invention
The invention aims to provide an LED ceiling lamp with induction and light control functions, and the technical problem to be solved by the invention is as follows:
(1) how to solve the problem of poor induction effect of the lamp; the switch of the lamp can be adjusted based on induction and light control through the matched use of the data acquisition module, the data preprocessing module, the data analysis module, the database, the processor, the control module and the transmission module; the data acquisition module is used for acquiring data information of the working environment of the lamp, the data information comprises door opening and closing set information, sensing set information and networking set information, the door opening and closing set information comprises door opening and closing information and door opening and closing information, the sensing set information comprises light sensing information and sound sensing information, the networking set information comprises fixed equipment connecting information and mobile equipment connecting information, the data information is transmitted to the data preprocessing module and the database, the data preprocessing module is used for preprocessing the data information to obtain data processing information, the data processing information is transmitted to the data analysis module, the data analysis module is used for analyzing the data processing information to obtain data analysis information, the control module is used for receiving and controlling the data analysis information sent by the data analysis module, and the lamp sensing effect can be effectively improved, the problem of poor induction effect of the lamp in the existing scheme is solved;
(2) the problem that the accuracy of the induction opening and closing of the lamp is not high is solved; through opening and closing the door set information, response set information and the comprehensive consideration of networking set information, and utilize the difference of priority, through comparing and handling the information of difference, can be accurate control lamp switch, utilize the switch information of advancing door and the switch information of going out, light response information and sound response information and fixed equipment linking information and the same latitude analysis of mobile device linking information, can effectively improve the accuracy that lamps and lanterns response was opened and is closed, overcome and can only realize controlling lamps and lanterns on-off through single acoustic control or light-operated among the current scheme, and then lead to the not high defect of the accuracy of lamps and lanterns switch.
The purpose of the invention can be realized by the following technical scheme: an LED ceiling lamp with induction and light control functions comprises a data acquisition module, a data preprocessing module, a data analysis module, a database, a processor, a control module and a transmission module;
the data acquisition module is used for acquiring data information, the data information comprises door opening and closing set information, induction set information and networking set information, the door opening and closing set information comprises door entering opening and closing information and door exiting opening and closing information, the induction set information comprises light induction information and sound induction information, the networking set information comprises fixed equipment connection information and mobile equipment connection information, the data information is transmitted to the data preprocessing module and the database, the data preprocessing module is used for preprocessing the data information to obtain data processing information, and the data processing information is transmitted to the data analysis module;
the data analysis module is used for analyzing the data processing information to obtain data analysis information and transmitting the data analysis information to the processor and the control module, and the specific working steps comprise:
the method comprises the following steps: acquiring data processing information, analyzing door opening and closing set data in the data processing information to obtain door opening and closing set analysis data, and acquiring door opening and closing set weight data of the door opening and closing set analysis data by using preset door opening and closing weights, wherein the door opening and closing set weight data comprises door opening weight data and door closing weight data;
step two: analyzing the induction set data in the data processing information to obtain induction set analysis data, and acquiring induction set weight data of the induction set analysis data by using preset induction weights, wherein the induction set weight data comprises indoor light intensity weight data and door opening and closing sound loudness weight data;
step three: analyzing networking set data in the data processing information to obtain networking set analysis data, and acquiring networking set weight data of the networking set analysis data by using a preset networking weight, wherein the networking set weight data comprises fixed equipment weight data and mobile equipment weight data;
step four: combining the door opening and closing set analysis data and door opening and closing set weight data, the induction set analysis data and induction set weight data, the networking set analysis data and networking set weight data to obtain data analysis information;
the control module is used for receiving and controlling the data analysis information sent by the data analysis module, and the specific working steps comprise:
step 1: acquiring data analysis information, and performing priority processing on induction set analysis data and door opening and closing set analysis data in the data analysis information; the priority of the induction set analysis data is higher than that of the switch gate set analysis data;
step 2: if the indoor light intensity weight data is smaller than a preset light intensity threshold value, generating a first control signal, and controlling the LED ceiling lamp not to be started by using the first control signal; if the indoor light intensity weight data is not less than the preset light intensity threshold value and the door opening weight data is not less than the preset door opening weight threshold value, generating a second control signal, and controlling the LED ceiling lamp to be opened by utilizing the second control signal;
and step 3: performing secondary priority processing on the induction set analysis data, the door opening and closing set analysis data and the networking set analysis data in the data analysis information; the priority of the sensing set analysis data is higher than that of the networking set analysis data;
and 4, step 4: if the networking set weight data is not less than any one of the preset fixed equipment weight threshold value and the preset mobile equipment weight threshold value, and the door closing weight data is not less than the preset door closing weight threshold value, generating a third control signal, and controlling the LED ceiling lamp to be closed by using the third control signal; if the networking set weight data is smaller than any one of the preset fixed equipment weight threshold value or the preset mobile equipment weight threshold value, or the door closing weight data is smaller than the preset door closing weight threshold value, generating a fourth control signal, and controlling the LED ceiling lamp not to be closed by using the third control signal;
and 5: respectively transmitting the first control signal, the second control signal, the third control signal or the fourth control signal to a database and a processor for storage and processing;
and the transmission module is used for transmitting data among the modules, the database and the processor.
As a further improvement of the invention: the data preprocessing module is used for preprocessing data information to obtain data processing information, and the specific operation steps comprise:
s21: acquiring data information, calibrating the switch gate set information in the data information into switch gate set data, and setting the switch gate set data as KSi, wherein i is 1,2,3.. n; calibrating the door entrance switch information in the door opening and closing set information into door entrance switch data, wherein the door entrance switch data comprises door entrance opening time and door entrance closing time, and the door entrance switch data is set to be KSJi, i is 1,2,3.. n; calibrating the exit switch information in the switch door set information into exit switch data, wherein the exit switch data comprises exit door opening time and exit door closing time, and the exit switch data is set to be KSCi, i is 1,2,3.
S22: calibrating sensing set information in the data information into sensing set data, and setting the sensing set data as GSi, wherein i is 1,2,3.. n; calibrating light sensing information in the sensing set information into light sensing data, wherein the light sensing data comprise indoor light intensity, and the light sensing data are set to be GSGi, i is 1,2,3.. n; calibrating sound sensing information in the sensing set information into sound sensing data, wherein the sound sensing data comprises the loudness of door opening and door closing sounds of an entrance door and the loudness of door closing sounds of an exit door, and the sound sensing data is set to be GSSi, i is 1,2,3.. n;
s23: calibrating networking set information in the data information into networking set data, and setting the networking set data as LJi, wherein i is 1,2,3.. n; calibrating the fixed equipment connection information in the networking set information into fixed equipment connection data, wherein the fixed equipment connection data comprise a fixed equipment connection Local Area Network (LAN) IP address, fixed equipment connection local area network time and fixed equipment disconnection local area network time, and the fixed equipment connection data are set to be LJGi, i is 1,2,3. Calibrating mobile equipment connection information in the networking set information into mobile equipment connection data, wherein the mobile equipment connection data comprise a mobile equipment connection local area network (IP) address, mobile equipment connection local area network time and mobile equipment disconnection local area network time, and the mobile equipment connection data are set to be LJYi, i is 1,2,3.
S24: and combining the door opening and closing set data, the induction set data and the networking set data to obtain data processing information.
As a further improvement of the invention: analyzing the door opening and closing set data in the data processing information to obtain door opening and closing set analysis data, wherein the specific working steps comprise:
s31: the method comprises the steps of obtaining door entrance switch data KSJi in door opening and closing set data, obtaining door entrance opening time and door entrance closing time in the door entrance switch data KSJi, comparing the door entrance opening time and the door entrance closing time with a preset standard lamp opening time range, and generating first door entrance analysis data if the door entrance opening time and the door entrance closing time do not belong to the standard lamp opening time range; if the door opening time of the door and the door closing time of the door belong to the standard light-on time range, generating second door analysis data by using the door opening time of the door;
s32: the method comprises the steps of obtaining the going-out switch data KSCi in the switch door set data, obtaining the going-out door opening time and the going-out door closing time in the going-out switch data KSCi, comparing the going-out door closing time with a preset standard light-on time range, and generating first going-out analysis data;
s33: and combining the first door-in analysis data, the second door-in analysis data and the first door-out analysis data to obtain door opening and closing set analysis data.
As a further improvement of the invention: the method comprises the following steps of analyzing induction set data in data processing information to obtain induction set analysis data, wherein the specific working steps comprise:
s41: acquiring light sensing data GSGi in the sensing set data to obtain indoor light intensity in the light sensing data GSGi;
s42: acquiring a ray migration value by using a ray migration calculation formula, wherein the ray migration calculation formula is as follows:
wherein HGQiExpressed as light mobility values, alpha is presetThe light migration coefficient can be 0.2836147, the GSGQi is expressed as an indoor light intensity value, the GSG0 is expressed as a preset light intensity boundary value, and the GSGQ0 is expressed as a preset light intensity attenuation rate value;
s43: judging the indoor light intensity by using the light migration value to obtain light intensity analysis data;
s44: acquiring sound sensing data GSSi in the sensing set data to obtain the loudness of door opening and door closing sounds of an entrance and an exit, judging the loudness of the door opening and door closing sounds by using the door opening time of the entrance to obtain first sound sensing analysis data, and judging the loudness of the door closing sounds of the exit by using the door closing time of the exit to obtain second sound sensing analysis data;
s45: and combining the light intensity analysis data, the first sound sensing analysis data and the second sound sensing analysis data to obtain sensing set analysis data, wherein the priority of the light intensity analysis data is greater than the priority of the first sound sensing analysis data and the second sound sensing analysis data.
As a further improvement of the invention: analyzing networking set data in the data processing information to obtain networking set analysis data, wherein the specific working steps comprise:
s51: acquiring fixed equipment connection data LJGi and mobile equipment connection data LJYi in the networking set analysis data, and setting a fixed equipment connection local area network IP address in the fixed equipment connection data LJGi as an equipment fixed value SSwi, wherein i is 1,2,3. Setting the mobile equipment connection local area network IP address in the mobile equipment connection data LJYi as an equipment movement value SYwi;
s52: acquiring a device connection state value by using a device connection state calculation formula, wherein the device connection state calculation formula is as follows:
wherein HSZiExpressed as a device connection state value, χ is expressed as a preset device connection state coefficient, and SSW0 is expressed as a preset deviceA fixed norm value, SYW0, expressed as a preset device movement norm value;
s53: comparing the equipment connection state value with a preset state threshold range, and if the equipment connection state value belongs to the threshold range, generating first networking analysis data, wherein the first networking analysis data comprises at least one fixed equipment or mobile equipment connected with a local area network; if the equipment connection state value does not belong to the threshold value range, generating second networking analysis data, wherein the first networking analysis data comprise that no fixed equipment and no mobile equipment are connected with a local area network;
s54: and combining the first networking analysis data and the second networking analysis data to obtain networking set analysis data.
The invention has the beneficial effects of various aspects:
(1) on one aspect of the invention, the switch of the lamp can be adjusted based on induction and light control through the cooperation of the data acquisition module, the data preprocessing module, the data analysis module, the database, the processor, the control module and the transmission module; the data acquisition module is used for acquiring data information of the working environment of the lamp, the data information comprises door opening and closing set information, sensing set information and networking set information, the door opening and closing set information comprises door opening and closing information and door opening and closing information, the sensing set information comprises light sensing information and sound sensing information, the networking set information comprises fixed equipment connecting information and mobile equipment connecting information, the data information is transmitted to the data preprocessing module and the database, the data preprocessing module is used for preprocessing the data information to obtain data processing information, the data processing information is transmitted to the data analysis module, the data analysis module is used for analyzing the data processing information to obtain data analysis information, the control module is used for receiving and controlling the data analysis information sent by the data analysis module, and the lamp sensing effect can be effectively improved, the problem of the not good response effect of lamps and lanterns in the current scheme has been overcome.
(2) According to the invention, on the other hand, the lamp switch can be accurately controlled by comprehensively considering the opening and closing door set information, the sensing set information and the networking set information and comparing and processing different information by utilizing different priorities, and the accuracy of the induction opening and closing of the lamp can be effectively improved by utilizing the same latitude analysis of the door opening and closing information, the door exiting switch information, the light sensing information and the sound sensing information as well as the fixed equipment connection information and the mobile equipment connection information, so that the defect that the accuracy of the lamp switch is not high due to the fact that the lamp switch can be controlled only by single sound control or light control in the existing scheme is overcome.
Drawings
The invention will be further described with reference to the accompanying drawings.
FIG. 1 is a system block diagram of an LED ceiling lamp with induction and light control functions.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, the invention relates to an LED ceiling lamp with sensing and light control functions, which comprises a data acquisition module, a data preprocessing module, a data analysis module, a database, a processor, a control module and a transmission module;
the data acquisition module is used for acquiring data information, the data information comprises door opening and closing set information, induction set information and networking set information, the door opening and closing set information comprises door entering opening and closing information and door exiting opening and closing information, the induction set information comprises light induction information and sound induction information, the networking set information comprises fixed equipment connection information and mobile equipment connection information, the data information is transmitted to the data preprocessing module and the database, the data preprocessing module is used for preprocessing the data information to obtain data processing information, and the data processing information is transmitted to the data analysis module; the specific operation steps comprise:
acquiring data information, calibrating the switch gate set information in the data information into switch gate set data, and setting the switch gate set data as KSi, wherein i is 1,2,3.. n; calibrating the door entrance switch information in the door opening and closing set information into door entrance switch data, wherein the door entrance switch data comprises door entrance opening time and door entrance closing time, and the door entrance switch data is set to be KSJi, i is 1,2,3.. n; calibrating the exit switch information in the switch door set information into exit switch data, wherein the exit switch data comprises exit door opening time and exit door closing time, and the exit switch data is set to be KSCi, i is 1,2,3.
Calibrating sensing set information in the data information into sensing set data, and setting the sensing set data as GSi, wherein i is 1,2,3.. n; calibrating light sensing information in the sensing set information into light sensing data, wherein the light sensing data comprise indoor light intensity, and the light sensing data are set to be GSGi, i is 1,2,3.. n; calibrating sound sensing information in the sensing set information into sound sensing data, wherein the sound sensing data comprises the loudness of door opening and door closing sounds of an entrance door and the loudness of door closing sounds of an exit door, and the sound sensing data is set to be GSSi, i is 1,2,3.. n;
calibrating networking set information in the data information into networking set data, and setting the networking set data as LJi, wherein i is 1,2,3.. n; calibrating the fixed equipment connection information in the networking set information into fixed equipment connection data, wherein the fixed equipment connection data comprise a fixed equipment connection Local Area Network (LAN) IP address, fixed equipment connection local area network time and fixed equipment disconnection local area network time, and the fixed equipment connection data are set to be LJGi, i is 1,2,3. Calibrating mobile equipment connection information in the networking set information into mobile equipment connection data, wherein the mobile equipment connection data comprise a mobile equipment connection local area network (IP) address, mobile equipment connection local area network time and mobile equipment disconnection local area network time, and the mobile equipment connection data are set to be LJYi, i is 1,2,3.
Combining the door opening and closing set data, the induction set data and the networking set data to obtain data processing information;
the data analysis module is used for analyzing the data processing information to obtain data analysis information and transmitting the data analysis information to the processor and the control module, and the specific working steps comprise:
the method comprises the following steps: acquiring data processing information, analyzing door opening and closing set data in the data processing information to obtain door opening and closing set analysis data, and acquiring door opening and closing set weight data of the door opening and closing set analysis data by using preset door opening and closing weights, wherein the door opening and closing set weight data comprises door opening weight data and door closing weight data; the specific working steps comprise:
the method comprises the steps of obtaining door entrance switch data KSJi in door opening and closing set data, obtaining door entrance opening time and door entrance closing time in the door entrance switch data KSJi, comparing the door entrance opening time and the door entrance closing time with a preset standard lamp opening time range, and generating first door entrance analysis data if the door entrance opening time and the door entrance closing time do not belong to the standard lamp opening time range; if the door opening time of the door and the door closing time of the door belong to the standard light-on time range, generating second door analysis data by using the door opening time of the door;
the method comprises the steps of obtaining the going-out switch data KSCi in the switch door set data, obtaining the going-out door opening time and the going-out door closing time in the going-out switch data KSCi, comparing the going-out door closing time with a preset standard light-on time range, and generating first going-out analysis data;
combining the first door entrance analysis data, the second door entrance analysis data and the first door exit analysis data to obtain door opening and closing set analysis data;
step two: analyzing the induction set data in the data processing information to obtain induction set analysis data, and acquiring induction set weight data of the induction set analysis data by using preset induction weights, wherein the induction set weight data comprises indoor light intensity weight data and door opening and closing sound loudness weight data; the specific working steps comprise:
acquiring light sensing data GSGi in the sensing set data to obtain indoor light intensity in the light sensing data GSGi;
acquiring a ray migration value by using a ray migration calculation formula, wherein the ray migration calculation formula is as follows:
wherein HGQiThe light intensity is expressed as a light migration value, alpha is expressed as a preset light migration coefficient and can take a value of 0.2836147, GSGQi is expressed as an indoor light intensity value, GSG0 is expressed as a preset light intensity boundary value, and GSGQ0 is expressed as a preset light intensity attenuation rate value;
judging the indoor light intensity by using the light migration value to obtain light intensity analysis data;
acquiring sound sensing data GSSi in the sensing set data to obtain the loudness of door opening and door closing sounds of an entrance and an exit, judging the loudness of the door opening and door closing sounds by using the door opening time of the entrance to obtain first sound sensing analysis data, and judging the loudness of the door closing sounds of the exit by using the door closing time of the exit to obtain second sound sensing analysis data;
combining the light intensity analysis data, the first sound sensing analysis data and the second sound sensing analysis data to obtain sensing set analysis data, wherein the priority of the light intensity analysis data is greater than the priority of the first sound sensing analysis data and the priority of the second sound sensing analysis data;
step three: analyzing networking set data in the data processing information to obtain networking set analysis data, and acquiring networking set weight data of the networking set analysis data by using a preset networking weight, wherein the networking set weight data comprises fixed equipment weight data and mobile equipment weight data; the specific working steps comprise:
acquiring fixed equipment connection data LJGi and mobile equipment connection data LJYi in the networking set analysis data, and setting a fixed equipment connection local area network IP address in the fixed equipment connection data LJGi as an equipment fixed value SSwi, wherein i is 1,2,3. Setting the mobile equipment connection local area network IP address in the mobile equipment connection data LJYi as an equipment movement value SYwi;
acquiring a device connection state value by using a device connection state calculation formula, wherein the device connection state calculation formula is as follows:
wherein HSZiExpressed as a device connection state value, χ is expressed as a preset device connection state coefficient, SSW0 is expressed as a preset device fixed standard value, and SYW0 is expressed as a preset device moving standard value;
comparing the equipment connection state value with a preset state threshold range, and if the equipment connection state value belongs to the threshold range, generating first networking analysis data, wherein the first networking analysis data comprises at least one fixed equipment or mobile equipment connected with a local area network; if the equipment connection state value does not belong to the threshold value range, generating second networking analysis data, wherein the first networking analysis data comprise that no fixed equipment and no mobile equipment are connected with a local area network;
combining the first networking analysis data and the second networking analysis data to obtain networking set analysis data;
step four: combining the door opening and closing set analysis data and door opening and closing set weight data, the induction set analysis data and induction set weight data, the networking set analysis data and networking set weight data to obtain data analysis information;
the control module is used for receiving and controlling the data analysis information sent by the data analysis module, and the specific working steps comprise:
step 1: acquiring data analysis information, and performing priority processing on induction set analysis data and door opening and closing set analysis data in the data analysis information; the priority of the induction set analysis data is higher than that of the switch gate set analysis data;
step 2: if the indoor light intensity weight data is smaller than a preset light intensity threshold value, generating a first control signal, and controlling the LED ceiling lamp not to be started by using the first control signal; if the indoor light intensity weight data is not less than the preset light intensity threshold value and the door opening weight data is not less than the preset door opening weight threshold value, generating a second control signal, and controlling the LED ceiling lamp to be opened by utilizing the second control signal;
and step 3: performing secondary priority processing on the induction set analysis data, the door opening and closing set analysis data and the networking set analysis data in the data analysis information; the priority of the sensing set analysis data is higher than that of the networking set analysis data;
and 4, step 4: if the networking set weight data is not less than any one of the preset fixed equipment weight threshold value and the preset mobile equipment weight threshold value, and the door closing weight data is not less than the preset door closing weight threshold value, generating a third control signal, and controlling the LED ceiling lamp to be closed by using the third control signal; if the networking set weight data is smaller than any one of the preset fixed equipment weight threshold value or the preset mobile equipment weight threshold value, or the door closing weight data is smaller than the preset door closing weight threshold value, generating a fourth control signal, and controlling the LED ceiling lamp not to be closed by using the third control signal;
and 5: respectively transmitting the first control signal, the second control signal, the third control signal or the fourth control signal to a database and a processor for storage and processing;
and the transmission module is used for transmitting data among the modules, the database and the processor.
When the lamp control device works, the switch of the lamp can be adjusted based on induction and light control through the matched use of the data acquisition module, the data preprocessing module, the data analysis module, the database, the processor, the control module and the transmission module; the data acquisition module is used for acquiring data information of the working environment of the lamp, the data information comprises door opening and closing set information, sensing set information and networking set information, the door opening and closing set information comprises door opening and closing information and door opening and closing information, the sensing set information comprises light sensing information and sound sensing information, the networking set information comprises fixed equipment connecting information and mobile equipment connecting information, the data information is transmitted to the data preprocessing module and the database, the data preprocessing module is used for preprocessing the data information to obtain data processing information, the data processing information is transmitted to the data analysis module, the data analysis module is used for analyzing the data processing information to obtain data analysis information, the control module is used for receiving and controlling the data analysis information sent by the data analysis module, and the lamp sensing effect can be effectively improved, the problem of poor induction effect of the lamp in the existing scheme is solved;
through opening and closing the door set information, response set information and the comprehensive consideration of networking set information, and utilize the difference of priority, through comparing and handling the information of difference, can be accurate control lamp switch, utilize the switch information of advancing door and the switch information of going out, light response information and sound response information and fixed equipment linking information and the same latitude analysis of mobile device linking information, can effectively improve the accuracy that lamps and lanterns response was opened and is closed, overcome and can only realize controlling lamps and lanterns on-off through single acoustic control or light-operated among the current scheme, and then lead to the not high defect of the accuracy of lamps and lanterns switch.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.
Claims (5)
1. An LED ceiling lamp with induction and light control functions is characterized by comprising a data acquisition module, a data preprocessing module, a data analysis module, a database, a processor, a control module and a transmission module;
the data acquisition module is used for acquiring data information, the data information comprises door opening and closing set information, induction set information and networking set information, the door opening and closing set information comprises door entering opening and closing information and door exiting opening and closing information, the induction set information comprises light induction information and sound induction information, the networking set information comprises fixed equipment connection information and mobile equipment connection information, the data information is transmitted to the data preprocessing module and the database, the data preprocessing module is used for preprocessing the data information to obtain data processing information, and the data processing information is transmitted to the data analysis module;
the data analysis module is used for analyzing the data processing information to obtain data analysis information and transmitting the data analysis information to the processor and the control module, and the specific working steps comprise:
the method comprises the following steps: acquiring data processing information, analyzing door opening and closing set data in the data processing information to obtain door opening and closing set analysis data, and acquiring door opening and closing set weight data of the door opening and closing set analysis data by using preset door opening and closing weights, wherein the door opening and closing set weight data comprises door opening weight data and door closing weight data;
step two: analyzing the induction set data in the data processing information to obtain induction set analysis data, and acquiring induction set weight data of the induction set analysis data by using preset induction weights, wherein the induction set weight data comprises indoor light intensity weight data and door opening and closing sound loudness weight data;
step three: analyzing networking set data in the data processing information to obtain networking set analysis data, and acquiring networking set weight data of the networking set analysis data by using a preset networking weight, wherein the networking set weight data comprises fixed equipment weight data and mobile equipment weight data;
step four: combining the door opening and closing set analysis data and door opening and closing set weight data, the induction set analysis data and induction set weight data, the networking set analysis data and networking set weight data to obtain data analysis information;
the control module is used for receiving and controlling the data analysis information sent by the data analysis module, and the specific working steps comprise:
step 1: acquiring data analysis information, and performing priority processing on induction set analysis data and door opening and closing set analysis data in the data analysis information; the priority of the induction set analysis data is higher than that of the switch gate set analysis data;
step 2: if the indoor light intensity weight data is smaller than a preset light intensity threshold value, generating a first control signal, and controlling the LED ceiling lamp not to be started by using the first control signal; if the indoor light intensity weight data is not less than the preset light intensity threshold value and the door opening weight data is not less than the preset door opening weight threshold value, generating a second control signal, and controlling the LED ceiling lamp to be opened by utilizing the second control signal;
and step 3: performing secondary priority processing on the induction set analysis data, the door opening and closing set analysis data and the networking set analysis data in the data analysis information; the priority of the sensing set analysis data is higher than that of the networking set analysis data;
and 4, step 4: if the networking set weight data is not less than any one of the preset fixed equipment weight threshold value and the preset mobile equipment weight threshold value, and the door closing weight data is not less than the preset door closing weight threshold value, generating a third control signal, and controlling the LED ceiling lamp to be closed by using the third control signal; if the networking set weight data is smaller than any one of the preset fixed equipment weight threshold value or the preset mobile equipment weight threshold value, or the door closing weight data is smaller than the preset door closing weight threshold value, generating a fourth control signal, and controlling the LED ceiling lamp not to be closed by using the third control signal;
and 5: respectively transmitting the first control signal, the second control signal, the third control signal or the fourth control signal to a database and a processor for storage and processing;
and the transmission module is used for transmitting data among the modules, the database and the processor.
2. The LED ceiling lamp with the induction and light control functions according to claim 1, wherein the data preprocessing module is used for preprocessing data information to obtain data processing information, and the specific operation steps comprise:
s21: acquiring data information, calibrating the switch gate set information in the data information into switch gate set data, and setting the switch gate set data as KSi, wherein i is 1,2,3.. n; calibrating the door entrance switch information in the door opening and closing set information into door entrance switch data, wherein the door entrance switch data comprises door entrance opening time and door entrance closing time, and the door entrance switch data is set to be KSJi, i is 1,2,3.. n; calibrating the exit switch information in the switch door set information into exit switch data, wherein the exit switch data comprises exit door opening time and exit door closing time, and the exit switch data is set to be KSCi, i is 1,2,3.
S22: calibrating sensing set information in the data information into sensing set data, and setting the sensing set data as GSi, wherein i is 1,2,3.. n; calibrating light sensing information in the sensing set information into light sensing data, wherein the light sensing data comprise indoor light intensity, and the light sensing data are set to be GSGi, i is 1,2,3.. n; calibrating sound sensing information in the sensing set information into sound sensing data, wherein the sound sensing data comprises the loudness of door opening and door closing sounds of an entrance door and the loudness of door closing sounds of an exit door, and the sound sensing data is set to be GSSi, i is 1,2,3.. n;
s23: calibrating networking set information in the data information into networking set data, and setting the networking set data as LJi, wherein i is 1,2,3.. n; calibrating the fixed equipment connection information in the networking set information into fixed equipment connection data, wherein the fixed equipment connection data comprise a fixed equipment connection Local Area Network (LAN) IP address, fixed equipment connection local area network time and fixed equipment disconnection local area network time, and the fixed equipment connection data are set to be LJGi, i is 1,2,3. Calibrating mobile equipment connection information in the networking set information into mobile equipment connection data, wherein the mobile equipment connection data comprise a mobile equipment connection local area network (IP) address, mobile equipment connection local area network time and mobile equipment disconnection local area network time, and the mobile equipment connection data are set to be LJYi, i is 1,2,3.
S24: and combining the door opening and closing set data, the induction set data and the networking set data to obtain data processing information.
3. The LED ceiling lamp with the induction and light control functions according to claim 1, wherein door opening and closing set data in the data processing information are analyzed to obtain door opening and closing set analysis data, and the specific working steps comprise:
s31: the method comprises the steps of obtaining door entrance switch data KSJi in door opening and closing set data, obtaining door entrance opening time and door entrance closing time in the door entrance switch data KSJi, comparing the door entrance opening time and the door entrance closing time with a preset standard lamp opening time range, and generating first door entrance analysis data if the door entrance opening time and the door entrance closing time do not belong to the standard lamp opening time range; if the door opening time of the door and the door closing time of the door belong to the standard light-on time range, generating second door analysis data by using the door opening time of the door;
s32: the method comprises the steps of obtaining the going-out switch data KSCi in the switch door set data, obtaining the going-out door opening time and the going-out door closing time in the going-out switch data KSCi, comparing the going-out door closing time with a preset standard light-on time range, and generating first going-out analysis data;
s33: and combining the first door-in analysis data, the second door-in analysis data and the first door-out analysis data to obtain door opening and closing set analysis data.
4. The LED ceiling lamp with the induction and light control functions according to claim 1, wherein induction set data in the data processing information is analyzed to obtain induction set analysis data, and the specific working steps comprise:
s41: acquiring light sensing data GSGi in the sensing set data to obtain indoor light intensity in the light sensing data GSGi;
s42: acquiring a ray migration value by using a ray migration calculation formula, wherein the ray migration calculation formula is as follows:
wherein HGQiThe light intensity is expressed as a light migration value, alpha is expressed as a preset light migration coefficient and can take a value of 0.2836147, GSGQi is expressed as an indoor light intensity value, GSG0 is expressed as a preset light intensity boundary value, and GSGQ0 is expressed as a preset light intensity attenuation rate value;
s43: judging the indoor light intensity by using the light migration value to obtain light intensity analysis data;
s44: acquiring sound sensing data GSSi in the sensing set data to obtain the loudness of door opening and door closing sounds of an entrance and an exit, judging the loudness of the door opening and door closing sounds by using the door opening time of the entrance to obtain first sound sensing analysis data, and judging the loudness of the door closing sounds of the exit by using the door closing time of the exit to obtain second sound sensing analysis data;
s45: and combining the light intensity analysis data, the first sound sensing analysis data and the second sound sensing analysis data to obtain sensing set analysis data, wherein the priority of the light intensity analysis data is greater than the priority of the first sound sensing analysis data and the second sound sensing analysis data.
5. The LED ceiling lamp with the induction and light control functions according to claim 1, characterized in that networking set data in the data processing information is analyzed to obtain networking set analysis data, and the specific working steps comprise:
s51: acquiring fixed equipment connection data LJGi and mobile equipment connection data LJYi in the networking set analysis data, and setting a fixed equipment connection local area network IP address in the fixed equipment connection data LJGi as an equipment fixed value SSwi, wherein i is 1,2,3. Setting the mobile equipment connection local area network IP address in the mobile equipment connection data LJYi as an equipment movement value SYwi;
s52: acquiring a device connection state value by using a device connection state calculation formula, wherein the device connection state calculation formula is as follows:
wherein HSZiExpressed as a device connection state value, χ is expressed as a preset device connection state coefficient, SSW0 is expressed as a preset device fixed standard value, and SYW0 is expressed as a preset device moving standard value;
s53: comparing the equipment connection state value with a preset state threshold range, and if the equipment connection state value belongs to the threshold range, generating first networking analysis data, wherein the first networking analysis data comprises at least one fixed equipment or mobile equipment connected with a local area network; if the equipment connection state value does not belong to the threshold value range, generating second networking analysis data, wherein the first networking analysis data comprise that no fixed equipment and no mobile equipment are connected with a local area network;
s54: and combining the first networking analysis data and the second networking analysis data to obtain networking set analysis data.
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