CN202310242U - Intelligent illumination controller - Google Patents
Intelligent illumination controller Download PDFInfo
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- CN202310242U CN202310242U CN2011204425407U CN201120442540U CN202310242U CN 202310242 U CN202310242 U CN 202310242U CN 2011204425407 U CN2011204425407 U CN 2011204425407U CN 201120442540 U CN201120442540 U CN 201120442540U CN 202310242 U CN202310242 U CN 202310242U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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Abstract
The utility model discloses an intelligent illumination controller, which comprises a central controller assembly (1), a luminance sensor (21), a repeater (5) and a dimming module (6), wherein the central controller assembly (1) comprises an analog to digital (A/D) converter (10) and a central processor (11); the A/D converter (10) and the central processor (11) are mutually connected; the central processor (11) is connected with a universal serial bus (USB) interface (12), a network interface (13), a display device (14), an input device (15) and a database (16); a luminance sensor (21) is connected with the A/D converter (10); and the repeater (5), the dimming module (6), the A/D converter (10), the central processor (11), the USB interface (12), the network interface (13), the display device (14), the input device (15) and the luminance sensor (21) are all connected with a power supply interface (32).
Description
Technical field
The utility model relates to a kind of intelligent lighting controller.
Background technology
The lighting of public place basically all is to use hand switch now, the phenomenon that can occur in time not turning off the light, thus cause inconvenience and the energy waste in the use, in addition, the long-term use of lighting installation also can cause loss, reduces service life.
The utility model content
The technical problem that the utility model will solve provides a kind of intelligent lighting controller of switch of automatic control lighting installation.
In order to solve the problems of the technologies described above, the utility model provides a kind of intelligent lighting controller, comprises central controller assembly, luminance sensor, repeater and light-adjusting module; Said central controller assembly comprises interconnective A/D converter and central processing unit; Said central processing unit is connected with USB interface, network interface, display unit, input unit and database; Luminance sensor is connected with A/D converter; Said repeater, light-adjusting module, A/D converter, central processing unit, USB interface, network interface, display unit, input unit and luminance sensor all are connected with power interface.
As the improvement to the intelligent lighting controller of the utility model: said A/D converter is connected with flow sensor, and said flow sensor is connected with ground induction coil; Said flow sensor all is connected with power interface with ground induction coil.
The intelligent lighting controller of the utility model is provided with repeater, can prolong the service range of light-adjusting module; Be connected with network interface, can artificially insert the Internet, realize the Internet Long-distance Control; Use intelligent management, when need not using lighting device, intelligence close lighting device, reached the effect of power saving, also prolong the service life of lighting device.
Description of drawings
Below in conjunction with accompanying drawing the embodiment of the utility model is done further explain.
Fig. 1 is the structural representation of the intelligent lighting controller of the utility model;
The structural representation of Fig. 2 when to be that Fig. 1 is actual use.
Embodiment
Embodiment 1, Fig. 1~Fig. 2 have provided a kind of intelligent lighting controller, comprise central controller assembly 1, luminance sensor 21, flow sensor 22, ground induction coil 25, repeater 5, light-adjusting module 6 and power interface 32.
Above-described central controller assembly 1 comprises A/D converter 10, central processing unit 11, usb 12, network interface 13, display unit 14, input unit 15 and database 16.
Above-described repeater 5, light-adjusting module 6, A/D converter 10, usb 12, network interface 13, display unit 14, input unit 15, luminance sensor 21, flow sensor 22 all are connected with external power interface 32 with ground induction coil 25; By power interface 32 external external power supplys 100, by external power supply 100 power supply is provided, for keeping drawing clear, omit the electrical connection in the accompanying drawing.
Above-described flow sensor 22 connects ground induction coil 25; Luminance sensor 21 is connected with A/D converter 10 respectively with flow sensor 22; Repeater 5, A/D converter 10, usb 12, network interface 13, display unit 14, input unit 15 and database 16 are connected with central processing unit 11 respectively; Light-adjusting module 6 is connected with repeater 5.
Above luminance sensor 21, flow sensor 22, A/D converter 10, central processing unit 11, usb 12, network interface 13, display unit 14, input unit 15 and power interface 32 are commercially available product.
During the real work of intelligent lighting controller, external power interface 32 external external power supplys 100, light-adjusting module 6 external lighting installations 600.
In actual use, light is changed the following grade of branch:
Grade one: light illumination is dark excessively, need take illumination measures;
Grade two: light illumination is good, need not take illumination measures.
In actual use, following four kinds of instructions mainly are set:
Instruction one: the people is arranged through out-of-date startup lighting installation 600;
Instruction two: people's process is arranged, and light illumination is that grade starts lighting installation 600 for the moment;
Instruction three: when light illumination is that grade starts lighting installation 600 for the moment;
Instruction four: do not start lighting installation 600.
Through usb 12 external external input units 200; And through external input unit 200 to the following information of central processing unit 11 input: grade one, grade two, instruction one, instruction two, instruction three and instruct four; After central processing unit 11 receives above-mentioned information; In above-mentioned information input data storehouse 16, and storage in database 16.
The central processing unit 11 of every intelligent lighting controller all is built-in with a unique sequence number.
During actual the use, step is following:
1, the correlation step of instruction one:
1.1, through one of input unit 15 input " instruction of execution command one "; Central processing unit 11 receives " instruction of execution command one "; And send one the information of executing instruction to display unit 14, display unit 14 receives one the information of executing instruction and shows (making things convenient for the field personnel to confirm the operating state of current intelligent lighting controller); Simultaneously, central processing unit 11 reads relevant information in database 16, after central processing unit 11 has read information, according to the information content, begins to carry out following steps:
1.2, start flow sensor 22, through out-of-date, the ground induction coil 25 that is embedded in the end, ground will produce electric current as the people, flow sensor 22 just produces one " analog signal that people's process is arranged " after receiving the electric current that ground induction coil 25 sends.
1.3, " analog signal that people's process is arranged " be sent to A/D converter 10, " analog signal that people's process is arranged " that A/D converter 10 will receive converts one " digital information that people's process is arranged " to.
1.4, after central processing unit 11 receives this " digital information that people's process is arranged ", can carry out next step action according to the relevant information of instruction one.
1.5, central processing unit 11 sends one the instruction of lighting installation 600 " start " through repeater 5 to light-adjusting module 6, after light-adjusting module 6 receives " starting the instruction of lighting installation 600 ", just control lighting installation 600 and start.
2, the correlation step of instruction two:
2.1, through one of input unit 15 input " instruction of execution command two "; Central processing unit 11 receives " instruction of execution command two "; And send two the information of executing instruction to display unit 14, display unit 14 receives two the information of executing instruction and shows (making things convenient for the field personnel to confirm the operating state of current intelligent lighting controller); Simultaneously, central processing unit 11 reads relevant information in database 16, after central processing unit 11 has read information, according to the information content, begins to carry out following steps:
2.2, start luminance sensor 21.
2.3, luminance sensor 21 begins to monitor the lighting environment in the region, when illuminating ray began deepening, luminance sensor 21 just sent one " analog signal of light deepening " to A/D converter 10.
2.4, after A/D converter 10 receives " analog signal of light deepening ", again " analog signal of light deepening " converted to one " digital information of light deepening ", and " digital information of light deepening " sent in the central processing unit 11.
2.5, after central processing unit 11 receives " digital information of light deepening ", the relevant light of comparison database 16 stored changes graduate information, judging this moment light is grade one or grade two.
2.6 if grade one, then carry out 1.1 to 1.4 step; If grade two is then ignored " digital information of light deepening ", and continue to receive other " digital informations of light deepening " that luminance sensor 21 sends, after light intensity reaches grade one, carry out 1.2 to 1.5 step.
3, the correlation step of instruction three:
3.1, through one of input unit 15 input " instruction of execution command three "; Central processing unit 11 receives " instruction of execution command three "; And send three the information of executing instruction to display unit 14, display unit 14 receives three the information of executing instruction and shows (making things convenient for the field personnel to confirm the operating state of current intelligent lighting controller); Simultaneously, central processing unit 11 reads relevant information in database 16, after central processing unit 11 has read information, according to the information content, begins to carry out following steps:
3.2, carry out 2.2 to 2.5 step.
3.3 if grade one, then carry out 1.4 step; If grade two is then ignored " digital information of light deepening ", and central processing unit 11 continues to receive other " digital informations of light deepening " that luminance sensors 21 send, and after light intensity reaches grade one, carries out 1.4 step.
4, the correlation step of instruction four:
4.1, through one of input unit 15 input " instruction of execution command four "; Central processing unit 11 receives " instruction of execution command four "; And send four the information of executing instruction to display unit 14, display unit 14 receives four the information of executing instruction and shows (making things convenient for the field personnel to confirm the operating state of current intelligent lighting controller); Simultaneously, central processing unit 11 reads relevant information in database 16, after central processing unit 11 has read information, according to the information content, begins to carry out following steps:
4.2, central processing unit 11 begins to get into resting state, up to receiving next instruction.
When if 5 intelligent lighting controllers need Long-distance Control, can artificially on network interface 13, connect gateway 300, and, connect CCC 500 through the Internet 400 through gateway 300 access the Internets 400; The central processing unit 11 of every intelligent lighting controller all is built-in with a unique sequence number, and CCC 500 is built-in with the relevant information in geographical position etc. of the intelligent lighting controller of this sequence number.Network interface 13 is through gateway 300 access the Internets 400, and CCC 500 can the current instruction of real-time update intelligent lighting controller through the Internet 400, switches the light illumination mode of intelligent lighting controller through update instruction, and step is following:
5.1, after inserting the Internet 400; When carrying out step 1; After central processing unit 11 receives " instruction of execution command one "; When carrying out step 1.2; Central processing unit 11 400 sends the combined information of the built-in sequence number of " executing instruction information " and this central processing unit 11 to CCC 500 through the Internet through network interface 13 through gateway 300 again, and CCC 500 just is stored into this combined information in CCC's 500 databases after receiving the combined information of the built-in sequence number of " executing instruction information " and this central processing unit 11.
5.2, after inserting the Internet 400; When carrying out step 2; After central processing unit 11 receives " instruction of execution command two "; When carrying out step 2.2; Central processing unit 11 400 sends the combined information of the built-in sequence number of " executing instruction two information " and this central processing unit 11 to CCC 500 through the Internet through network interface 13 through gateway 300 again, and CCC 500 just is stored into this combined information in CCC's 500 databases after receiving the combined information of the built-in sequence number of " executing instruction two information " and this central processing unit 11.
5.3, after inserting the Internet 400; When carrying out step 3; After central processing unit 11 receives " instruction of execution command three "; When carrying out step 3.2; Central processing unit 11 400 sends the combined information of the built-in sequence number of " executing instruction three information " and this central processing unit 11 to CCC 500 through the Internet through network interface 13 through gateway 300 again, and CCC 500 just is stored into this combined information in CCC's 500 databases after receiving the combined information of the built-in sequence number of " executing instruction three information " and this central processing unit 11.
5.4, after inserting the Internet 400; When carrying out step 4; After central processing unit 11 receives " instruction of execution command one "; When carrying out step 4.2; Central processing unit 11 400 sends the combined information of the built-in sequence number of " executing instruction four information " and this central processing unit 11 to CCC 500 through the Internet through network interface 13 through gateway 300 again, and CCC 500 just is stored into this combined information in CCC's 500 databases after receiving the combined information of the built-in sequence number of " executing instruction four information " and this central processing unit 11.
5.5, in the time of the light illumination mode of certain intelligent lighting controller of needs changes; The sequence number of CCC's 500 each intelligent lighting controller of retrieval; According to built-in relevant information about sequence number; Find out the intelligent lighting controller that needs the change light illumination mode; And sending the dependent instruction that needs change through gateway 300 to the intelligent lighting controller of this sequence number through the Internet 400, after central processing unit 11 received this instruction, the illumination of just carrying out dependent instruction according to this instruction controlled that (concrete steps are with step 1, step 2, step 3 or step 4).
At last, it is also to be noted that what more than enumerate only is a specific embodiment of the utility model.Obviously, the utility model is not limited to above embodiment, and many distortion can also be arranged.All distortion that those of ordinary skill in the art can directly derive or associate from the disclosed content of the utility model all should be thought the protection range of the utility model.
Claims (2)
1. the intelligent lighting controller is characterized in that: comprise central controller assembly (1), luminance sensor (21), repeater (5) and light-adjusting module (6);
Said central controller assembly (1) comprises interconnective A/D converter (10) and central processing unit (11); Said central processing unit (11) is connected with USB interface (12), network interface (13), display unit (14), input unit (15) and database (16); Luminance sensor (21) is connected with A/D converter (10);
Said repeater (5), light-adjusting module (6), A/D converter (10), central processing unit (11), USB interface (12), network interface (13), display unit (14), input unit (15) and luminance sensor (21) all are connected with power interface (32).
2. intelligent lighting controller according to claim 1 is characterized in that: said A/D converter (10) is connected with flow sensor (22), and said flow sensor (22) is connected with ground induction coil (25); Said flow sensor (22) all is connected with power interface (32) with ground induction coil (25).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011204425407U CN202310242U (en) | 2011-11-10 | 2011-11-10 | Intelligent illumination controller |
Applications Claiming Priority (1)
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CN2011204425407U CN202310242U (en) | 2011-11-10 | 2011-11-10 | Intelligent illumination controller |
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CN202310242U true CN202310242U (en) | 2012-07-04 |
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CN2011204425407U Expired - Lifetime CN202310242U (en) | 2011-11-10 | 2011-11-10 | Intelligent illumination controller |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106879099A (en) * | 2015-12-10 | 2017-06-20 | 亿光电子工业股份有限公司 | Lighting device |
-
2011
- 2011-11-10 CN CN2011204425407U patent/CN202310242U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106879099A (en) * | 2015-12-10 | 2017-06-20 | 亿光电子工业股份有限公司 | Lighting device |
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C14 | Grant of patent or utility model | ||
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CX01 | Expiry of patent term |
Granted publication date: 20120704 |
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CX01 | Expiry of patent term |