CN103369778A - Illuminating equipment and illumination control system applied to same - Google Patents
Illuminating equipment and illumination control system applied to same Download PDFInfo
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- CN103369778A CN103369778A CN 201210104237 CN201210104237A CN103369778A CN 103369778 A CN103369778 A CN 103369778A CN 201210104237 CN201210104237 CN 201210104237 CN 201210104237 A CN201210104237 A CN 201210104237A CN 103369778 A CN103369778 A CN 103369778A
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Abstract
The invention discloses an illumination control system, which comprises an Ethernet, multiple pieces of illuminating equipment and a client, wherein each piece of illuminating equipment comprises an Ethernet interface; the multiple pieces of illuminating equipment are divided into multiple groups; each group comprises one piece of illuminating equipment in a first working mode and multiple pieces of illuminating equipment in a second working mode; the illuminating equipment in the first working mode is connected to the Ethernet through the Ethernet interface; the illuminating equipment in the second working mode is connected with the illuminating equipment in the first working mode; and the client is used for monitoring the first illuminating equipment set in the first working mode and the second illuminating equipment set in the second working mode via the Ethernet. A user can remotely monitor the multiple pieces of illuminating equipment through the client, so that each piece of illuminating equipment can be maintained conveniently. Moreover, the invention further provides illuminating equipment.
Description
Technical field
The present invention relates to a kind of lighting apparatus and be applied to the Lighting Control Assembly of this lighting apparatus, particularly a kind of lighting apparatus and Lighting Control Assembly that carries out remote monitoring.
Background technology
Traditional outdoor illumination equipment uses a lighting control unit (such as microprocessor) to come light fixture is controlled usually.As shown in Figure 1, lighting apparatus 1 comprises a lighting control unit 2, a transducer 3 and some light fixtures 4 that is connected in this lighting control unit 2.This lighting control unit 2 can unify to regulate according to the brightness that this transducer 3 senses external environment condition the brightness of these light fixtures 4.Yet, this lighting apparatus 1 can't each light fixture 4 of remote monitoring situation, so cause when a certain light fixture 4 damages, even the user can't learn and know the particular location that also can't determine the light fixture 4 that breaks down, the user then need arrive the scene and checked this moment, and so the maintenance to lighting apparatus brings great inconvenience.
Summary of the invention
In view of above content, be necessary to provide a kind of Lighting Control Assembly that carries out the lighting apparatus of remote monitoring and be applied to this lighting apparatus.
A kind of lighting apparatus links to each other with a Dynamic Host Configuration Protocol server, and this Dynamic Host Configuration Protocol server is used to this lighting apparatus distributing IP address, and this lighting apparatus comprises:
One first sensor is used for the brightness of sensitive context and exports the first sensing signal of a correspondence according to ambient brightness;
One power circuit is used to this lighting apparatus that working power is provided;
One lighting unit comprises a driver module and a light emitting module, and this driver module is used for the operating state of control light emitting module;
One processor, the illumination control signal that is used for exporting corresponding ambient brightness according to this first sensing signal is to this driver module, to regulate the brightness of this light emitting module by this driver module; And
One Ethernet interface, this processor is connected in an Ethernet by this Ethernet interface, so that a client computer that links to each other with this Ethernet realizes control to this processor by the IP address distributed by Dynamic Host Configuration Protocol server, and then realizes the monitoring to this lighting apparatus.
A kind of Lighting Control Assembly, this Lighting Control Assembly comprises:
Some lighting apparatus, these some lighting apparatus are divided into some groups, each group comprises a main equipment and some from equipment, wherein this main equipment is the lighting apparatus that is under one first mode of operation, some is the lighting apparatus that is under one second mode of operation from equipment, this main equipment is connected in an Ethernet by an Ethernet interface, and these are some to be connected with main equipment from equipment; Each lighting apparatus includes a memory cell, this cell stores one group's information table, wherein the group information table in this main equipment has been stored in this group respectively from the facility information of equipment, and each has all stored the facility information of main equipment in this group from the group information table in the equipment; And
One client computer is communicated by letter with main equipment by Ethernet, and the IP address of this client computer by this main equipment is to respectively monitoring from lighting apparatus in this main equipment and this group.
Above-mentioned lighting apparatus and the Lighting Control Assembly that is applied to this lighting apparatus carry out remote monitoring by this Ethernet interface to some lighting apparatus that are divided into different groups, include only a lighting apparatus that is set to the first mode of operation in one of them group.The user only need the lighting apparatus that is set to the first mode of operation in group of browser input of client computer the IP address can by long-range to this lighting apparatus be that other lighting apparatus of a group is monitored, so made things convenient for each lighting apparatus safeguarded.
Description of drawings
Fig. 1 is the block diagram of existing lighting apparatus.
Fig. 2 is the block diagram of the first better embodiment of Lighting Control Assembly of the present invention.
Fig. 3 is the block diagram of the better embodiment of lighting apparatus among Fig. 2.
Fig. 4 is the block diagram of the second better embodiment of Lighting Control Assembly of the present invention.
Fig. 5 is the block diagram of the 3rd better embodiment of Lighting Control Assembly of the present invention.
Fig. 6 is the block diagram of the 4th better embodiment of Lighting Control Assembly of the present invention.
The main element symbol description
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| The group information table | 106 |
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| Ethernet | 202 |
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Following embodiment further specifies the present invention in connection with above-mentioned accompanying drawing.
Embodiment
Please refer to Fig. 2, the first better embodiment of Lighting Control Assembly of the present invention comprises a lighting apparatus 506, a DHCP(Dynamic Host Configuration Protocol, and DynamicHost arranges agreement) client computer 504 that links to each other with this lighting apparatus 506 by an Ethernet 202 of server 508 and.The user can monitor by this client computer 504,202 pairs of these lighting apparatus 506 of Ethernet.
This Dynamic Host Configuration Protocol server 508 is used to this client computer 504 and this lighting apparatus 506 that the IP address is provided.When this client computer 504 or this lighting apparatus 506 send distributing IP Address requests to this Dynamic Host Configuration Protocol server 508, this Dynamic Host Configuration Protocol server 508 is selected an IP address and is distributed to this client computer 504 or this lighting apparatus 506 of the request of transmission from its IP address pool, so can make this client computer 504 or its IP address of this lighting apparatus 506 Lookup protocols.By the IP address of distributing, the user can carry out remote monitoring by client computer 504 and 202 pairs of corresponding lighting apparatus 506 of Ethernet.
Please refer to Fig. 3, the better embodiment of lighting apparatus 506 of the present invention comprises a processor 10, one provides the clock circuit 20 of time signal for this processor 10, one is connected in the control panel 30 of this processor 10, one provides the power circuit 40 of working power for this lighting apparatus 506, one is used for the first sensor 50 of sensitive context brightness, one lighting unit 60, one is used for the second transducer 70 of these lighting unit 60 brightness of sensing, one is connected in memory cell 80 and a communication unit of communicating by letter with ancillary equipment 90 of this processor 10, and wherein this lighting unit 60 comprises a light emitting module 600 and a driver module 602.
This first sensor 50 is exported one first sensing signal S according to the brightness that senses environment
FTo this processor 10.This processor 10 is according to the first sensing signal S that receives
FJudge the brightness of these lighting unit 60 environment of living in, and export the illumination control signal S that is used for regulating this light emitting module 600 of corresponding environment according to the brightness of environment
LTo this driver module 602, regulating the brightness of this light emitting module 600 by this driver module 602, and then reach the purpose of regulating these lighting apparatus 506 brightness.For example, be in ambient brightness higher the time when sensing this lighting unit 60, the illumination control signal S of these processor 10 output respective environment
L1To this driver module 602, so that this driver module 602 reduces the luminosity of this light emitting module 600; Be in ambient brightness less the time when sensing this lighting unit 60, the illumination control signal S of these processor 10 output respective environment
L3To this driver module 602, so that this driver module 602 increases the luminosity of this light emitting module 600.
In other embodiments, this processor 10 also obtains current temporal information according to this clock circuit 20, and exports the illumination control signal S of corresponding time according to current temporal information
L2To this driver module 602, so that this driver module 602 can be according to the brightness of this light emitting module 600 of corresponding adjusting of current time.Such as, within the time period that is in 5 o'clock to 7 o'clock evening, these processor 10 control light emitting modules 600 have lower luminosity; When being at 7 in evening to 6 time period of morning, 10 control of this processor light emitting module 600 has higher luminosity.
This second transducer 70 is used for output sensing to the second sensing signal S of the brightness of this lighting unit 60
STo this processor 10.This processor 10 is according to this second sensing signal S
SJudge whether this lighting unit 60 works.That is, be used for regulating the illumination control signal S of these lighting apparatus 506 brightness when these processor 10 outputs
LAfter, this processor 10 obtains this second sensing signal S at regular intervals
S, and judge this second sensing signal S
SThe illumination control signal S of the brightness of this corresponding lighting apparatus 506 and 10 outputs of this processor
LWhether the brightness of this corresponding lighting apparatus 506 is consistent.If consistent, represent that then this lighting apparatus 506 is working properly; Otherwise, represent this lighting apparatus 506 operation irregularities.
This power circuit 40 is supported polytype power supply access, such as AC power, DC power supply etc.So improve the work elasticity of this lighting apparatus 506 by the design with redundant power, namely when AC power breaks down, can in time continue as lighting apparatus 506 power supplies by the storage battery that arranges.Certainly, the power circuit 40 also interchange that includes of correspondence turns DC Module, is converted to DC power supply with the AC power that will input and thinks lighting apparatus 506 power supplies.
This communication unit 90 comprises an I/O interface 900, a serial communication interface 901 and an Ethernet interface 902.
This processor 10 is connected with external equipment (such as buzzer) by this I/O interface 900.So so that when this lighting apparatus 506 abnormal, this processor 10 sends alarm signal S by this I/O interface 900
ATo this buzzer, administrative staff carry out respective handling with prompting.
This processor 10 also can link to each other with the serial communication interface of other lighting apparatus 506 by this serial communication interface 901, and then so that can be by supporting that serial communication protocol carries out exchanges data between each lighting apparatus 506.In the present embodiment, this serial communication interface 901 is a RS-485 interface.
This processor 10 is connected in this Ethernet 202 by this Ethernet interface 902, so that the user carries out remote monitoring by 202 pairs of these lighting apparatus 506 of this Ethernet.
Firmware when this memory cell 80 has been stored this processor 10 operation, and provide running environment for the operation of this firmware.In the present embodiment, this memory cell 80 comprises a RAM(Random Access Memory, random access memory) and a ROM(Read Only Memory, read-only memory).This firmware stores is in this ROM, and this RAM provides running environment for the operation of this firmware.
This memory cell 80 has also been stored group's information table 106, and this group information table 106 has been stored the facility information that need to carry out the lighting apparatus of exchanges data.According to the serial communication principle as can be known, when two lighting apparatus 506 communicated by serial communication interface 901, two lighting apparatus 506 all need be known the other side's serial ports address, had stored the serial ports address that will carry out the lighting apparatus of exchanges data in this facility information.According to the ethernet communication principle as can be known, when two lighting apparatus 506 communicated by Ethernet interface 902, two lighting apparatus 506 all need be known the other side's IP address, had stored the IP address that will carry out the lighting apparatus of exchanges data in this facility information.So can determine to carry out other lighting apparatus of exchanges data by being stored in serial ports address in this group information table 106 or IP address.
The IP address of this lighting apparatus 506 also can manually be set by this control panel 30.
This processor 10 also provides the web service function, so that this lighting apparatus 506 can respond the request that sends by client computer 504 from the user.When the user passed through 504 pairs of these lighting apparatus 506 remote monitoring of this client computer, the user only needed the IP address of this lighting apparatus 506 of input in the browser of this client computer 504 to carry out remote monitoring to this lighting apparatus 506.At this moment, this processor 10 returns to the page of user's request user's browser, and the user comes this lighting apparatus 506 is monitored according to the page that shows in the browser.As when wanting to obtain the brightness of this lighting apparatus 506, this processor 10 obtains the second sensing signal S of these the second transducer 70 outputs
S, and export this second sensing signal S
SCorresponding to the brightness of this lighting apparatus 506 page to this browser.When the brightness that the page that shows by this client computer 504 as the user arranges this lighting apparatus 506 is a particular value, 10 corresponding illumination control signal S of output of this processor
LTo this driver module 602, regulating the brightness of this light emitting module 600 by this driver module 602, and then reach the purpose of remote monitoring.
Please refer to Fig. 4, it is the block diagram of the second execution mode of Lighting Control Assembly of the present invention.The second execution mode of this Lighting Control Assembly comprise main equipment 500 that a client computer 504, a Dynamic Host Configuration Protocol server 508, one link to each other with this client computer 504 by an Ethernet 202 and some be connected in this Ethernet 202 from equipment 502.In the present embodiment, this main equipment 500 and somely be lighting apparatus from equipment 502.When this lighting apparatus is operated in holotype lower time, claim that this lighting apparatus is main equipment 500; When this lighting apparatus was operated in from pattern lower time, claim this lighting apparatus for from equipment 502.Contrast as can be known with the first execution mode, the lighting apparatus in this second execution mode links to each other with other lighting apparatus by this Ethernet 202.This control panel 30 also comprises be used to the button that this lighting apparatus mode of operation is set, and button and is set from mode setting key such as a holotype.When this holotype arranged button and is pressed, the mode of operation that 10 of this processors arrange this lighting apparatus was holotype; When this was pressed from mode key, the mode of operation that 10 of this processors arrange this lighting apparatus was from pattern.
In the present embodiment, group information table 106 in this main equipment 500 has been stored respectively the facility information from equipment 502, as respectively from the IP address of equipment 502; Respectively the group information table 106 from equipment 502 has been stored the facility information of main equipment 500 of the group at its place, such as the IP address of this main equipment 500.In the present embodiment, the corresponding lighting apparatus 506 of each facility information of the interior storage of group information table 106 in this lighting apparatus 506 that works under the holotype is called a group, only has a lighting apparatus 506 that is set to holotype in each group.Be set to from the lighting apparatus 506 of pattern can only with the group at place in be set to holotype lighting apparatus communicate.To respectively carrying out remote monitoring from equipment 502, the interface of namely logining main equipment 500 by client computer 504 can manage from equipment 502 in this group all user by this main equipment 500.
In the present embodiment, the IP address of main equipment 500 of the group at its place respectively is set by its control panel 30 from equipment 502, after setting is finished, should this IP address be stored in this group information table 106 from 10 of the processors of equipment 502, also send the group allocation requests to this main equipment 500.After this main equipment 500 receives this group allocation request, the IP address from equipment 502 that sends this grouping request is stored in the group information table 106 of this main equipment 500.So so that the group information table 106 in this main equipment 500 has been stored respectively the facility information from equipment 502, respectively the group information table 106 from equipment 502 has been stored the facility information of main equipment 500 of the group at its place, and then so that this main equipment 500 and respectively can form a group from equipment 502.
When the user obtains state information from equipment 502 by this client computer 504, the user can input the IP address of this main equipment 500 in the browser of client computer 504, afterwards, in the page of browser to monitoring from equipment 502, after this main equipment 500 receives the request of monitoring from equipment 502, the processor 10 of this main equipment 500 is selected corresponding IP address from equipment 502 from this group information table 106, and will support to comprise for the ethernet signal E to this operational order of monitoring from equipment 502
STransfer to this from the Ethernet interface 902 of equipment 502.Should carry out these operational orders from processor 10 of equipment 502, as when wanting to obtain this from the brightness of equipment 502, this from equipment 502 with its monochrome information I
FTransfer to this main equipment 500 by its Ethernet interface 902.This main equipment 500 comprises this monochrome information I with this
FEthernet signal E
S1Transfer to the client computer 504 of request.So so that the user carries out remote monitoring to these from equipment 502 by this client computer 504.
Please refer to Fig. 5, it shows the 3rd execution mode of Lighting Control Assembly of the present invention.The 3rd execution mode is compared with the second execution mode, this main equipment 500 by a serial communication network 200 with communicate from equipment 502.
According to serial communication principle as can be known, the serial ports address from equipment 502 that 500 need of this main equipment can obtain to link to each other with this serial communication network 200 by the forms of broadcasting, so the group information table 106 of this main equipment 500 storage is respectively from the serial ports address of equipment 502.Simultaneously, when this main equipment 500 is broadcasted, respectively also can receive the serial ports address of this main equipment 500 from equipment 502, therefore, respectively also can store the serial ports address of this main equipment 500 from the group information table 106 of equipment 502.
When the user monitored from equipment 502 by 504 pairs of this client computer, the user can input the IP address of this main equipment 500 in the browser of client computer 504, afterwards, in the page of browser to monitoring from equipment 502.After this main equipment 500 receives the request of monitoring from equipment 502, this processor 10 is selected the corresponding serial ports address from equipment 502 from this group information table 106, and will support to comprise for the rs 232 serial interface signal E to this operational order of monitoring from equipment 502
ETransfer to this from the serial communication interface 901 of equipment 502.Should carry out this operational order from the processor 10 of equipment 502.As when being used for obtaining this from the brightness of equipment 502, this processor 10 obtains this from the second sensing signal S of the second transducer output of equipment 502
S, and with this second sensing signal S
SCorresponding monochrome information I
FBe packaged into rs 232 serial interface signal E
E1, and transfer to the processor 10 of this main equipment 500 by this serial communication interface 901.The processor 10 of this main equipment 500 should be from equipment 502 monochrome information I afterwards
FBe packaged into and support to comprise this from the monochrome information I of equipment 502
FEthernet signal E
S2, and export the client computer 504 of request to by this Ethernet interface 902.So so that the user carries out remote monitoring by 504 pairs of these main equipments 500 of this client computer and these from equipment 502.
Please refer to Fig. 6, the 4th execution mode of Lighting Control Assembly of the present invention comprises the client computer 504 that one first group 800, one second group 802, a Dynamic Host Configuration Protocol server 508 and carry out remote monitoring by 202 pairs of these the first groups 800 of an Ethernet and the second group 802.In the present embodiment, this second group 802 comprise a main equipment 500 and some by a serial communication network 200 and this main equipment 500 carry out exchanges data from equipment 502.This first group 800 comprise a main equipment 500 and some by this Ethernet 202 and this main equipment 500 carry out exchanges data from equipment 502.The 4th execution mode is the combination of this second and the 3rd execution mode, when the user monitors by the lighting apparatus in 504 pairs of these the first groups 800 of this client computer, the user only needs the IP address of the main equipment 500 of this first group 800 of input in this client computer 504 to get final product, its operation principle is identical with the 3rd execution mode of the present invention, repeats no more herein.When the user monitors by the lighting apparatus in 504 pairs of these the second groups 802 of this client computer, the user only needs the IP address of the main equipment 500 of this second group 802 of input in this client computer 504 to get final product, its operation principle is identical with the second execution mode of the present invention, repeats no more herein.
Claims (12)
1. a lighting apparatus links to each other with a Dynamic Host Configuration Protocol server, and this Dynamic Host Configuration Protocol server is used to this lighting apparatus distributing IP address, and this lighting apparatus comprises:
One first sensor is used for the brightness of sensitive context and exports the first sensing signal of a correspondence according to ambient brightness;
One power circuit is used to this lighting apparatus that working power is provided;
One lighting unit comprises a driver module and a light emitting module, and this driver module is used for the operating state of control light emitting module;
One processor, the illumination control signal that is used for exporting corresponding ambient brightness according to this first sensing signal is to this driver module, to regulate the brightness of this light emitting module by this driver module; And
One Ethernet interface, this processor is connected in an Ethernet by this Ethernet interface, so that a client computer that links to each other with this Ethernet realizes control to this processor by the IP address distributed by Dynamic Host Configuration Protocol server, and then realizes the monitoring to this lighting apparatus.
2. lighting apparatus as claimed in claim 1, it is characterized in that: this lighting apparatus also comprises a clock circuit, the illumination control signal that the temporal information that this processor is exported by this clock circuit is exported corresponding temporal information is to this driver module, to regulate the operating state of this light emitting module by this driver module.
3. lighting apparatus as claimed in claim 1, it is characterized in that: this lighting apparatus also comprises one second transducer, this second transducer is used for exporting one second sensing signal according to the brightness of this lighting unit that receives; This processor judges with the brightness that exports corresponding this lighting apparatus of illumination control signal of this lighting unit to whether this lighting apparatus works according to the brightness of this lighting apparatus corresponding to this second sensing signal; When two brightness are not of uniform size when causing, judge this lighting apparatus operation irregularity.
4. lighting apparatus as claimed in claim 3, it is characterized in that: this lighting apparatus also comprises an I/O interface and a warning device, this lighting apparatus links to each other with warning device by this I/O interface, when this lighting apparatus is unusual, this processor is exported an alarm signal to this warning device, to send information warning.
5. lighting apparatus as claimed in claim 4, it is characterized in that: this warning device is a buzzer.
6. Lighting Control Assembly, this Lighting Control Assembly comprises:
Some lighting apparatus, these some lighting apparatus are divided into some groups, each group comprises a main equipment and some from equipment, wherein this main equipment is the lighting apparatus that is under one first mode of operation, some is the lighting apparatus that is under one second mode of operation from equipment, this main equipment is connected in an Ethernet by an Ethernet interface, and these are some to be connected with main equipment from equipment; Each lighting apparatus includes a memory cell, this cell stores one group's information table, wherein the group information table in this main equipment has been stored in this group respectively from the facility information of equipment, and each has all stored the facility information of main equipment in this group from the group information table in the equipment; And
One client computer is communicated by letter with main equipment by Ethernet, and the IP address of this client computer by this main equipment is to respectively monitoring from lighting apparatus in this main equipment and this group.
7. Lighting Control Assembly as claimed in claim 6 is characterized in that: link to each other IP address that this lighting apparatus interior group information table stored this group in each lighting apparatus by this Ethernet with main equipment in its place group from equipment.
8. Lighting Control Assembly as claimed in claim 6, it is characterized in that: each lighting apparatus also comprises a serial communication interface, respectively be connected in main equipment in its place group from equipment by this serial communication interface, the serial ports address of having stored each lighting apparatus in this group in the group information table in this lighting apparatus.
9. Lighting Control Assembly as claimed in claim 6, it is characterized in that: each lighting apparatus also comprises:
One first sensor is used for the brightness of sensitive context and exports one first sensing signal of corresponding ambient brightness;
One second transducer is used for exporting one second sensing signal according to the brightness that receives this lighting unit;
One control panel comprises some buttons; And
One processor comes the corresponding mode of operation that this lighting apparatus is set according to the button that is pressed in this control panel.
10. Lighting Control Assembly as claimed in claim 9 is characterized in that: this processor also arranges the IP address of each lighting apparatus according to the button that is pressed.
11. Lighting Control Assembly as claimed in claim 9 is characterized in that: this processor judges with the brightness that exports corresponding this lighting apparatus of illumination control signal of this lighting unit to whether this lighting apparatus works according to the brightness of this lighting apparatus corresponding to this second sensing signal; When two brightness are not of uniform size when causing, judge this lighting apparatus operation irregularity.
12. Lighting Control Assembly as claimed in claim 6 is characterized in that: this Lighting Control Assembly also comprises a Dynamic Host Configuration Protocol server, and this client computer and each lighting apparatus obtain the IP address by this Dynamic Host Configuration Protocol server.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201210104237 CN103369778A (en) | 2012-04-11 | 2012-04-11 | Illuminating equipment and illumination control system applied to same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201210104237 CN103369778A (en) | 2012-04-11 | 2012-04-11 | Illuminating equipment and illumination control system applied to same |
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| Publication Number | Publication Date |
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| CN103369778A true CN103369778A (en) | 2013-10-23 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN 201210104237 Pending CN103369778A (en) | 2012-04-11 | 2012-04-11 | Illuminating equipment and illumination control system applied to same |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105892382A (en) * | 2016-04-12 | 2016-08-24 | 东莞市驰明电子科技有限公司 | Intelligent network public light-operated real-time management monitoring system |
| CN108491337A (en) * | 2018-04-03 | 2018-09-04 | 张青 | A method of realizing group control |
-
2012
- 2012-04-11 CN CN 201210104237 patent/CN103369778A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105892382A (en) * | 2016-04-12 | 2016-08-24 | 东莞市驰明电子科技有限公司 | Intelligent network public light-operated real-time management monitoring system |
| CN108491337A (en) * | 2018-04-03 | 2018-09-04 | 张青 | A method of realizing group control |
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Application publication date: 20131023 |