CN202435668U - Intelligent wind-solar complementation street lighting system and network - Google Patents
Intelligent wind-solar complementation street lighting system and network Download PDFInfo
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- CN202435668U CN202435668U CN2011205537325U CN201120553732U CN202435668U CN 202435668 U CN202435668 U CN 202435668U CN 2011205537325 U CN2011205537325 U CN 2011205537325U CN 201120553732 U CN201120553732 U CN 201120553732U CN 202435668 U CN202435668 U CN 202435668U
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- road lamp
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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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- 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
- Y02B20/72—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps in street lighting
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Abstract
The utility model discloses an intelligent wind-solar complementation street lighting system and network. The system comprises a storage battery, a wind-solar complementation generation device, LED (light-emitting diode) lamps, a monitoring device, a control device and a wireless communication module; and the network comprises a plurality of intelligent wind-solar complementation street lighting systems and a master control system. According to the utility model, the monitoring device is mainly used for converting monitored traffic stream and pedestrian conditions to data and then transmitting the data to the control device, and the control device can transmit the data on the traffic stream and pedestrian conditions in the position to other wind-solar complementation street lighting systems by virtue of the wireless communication module. Therefore, the control device can make an optimal power supply plan according to the comprehensive judgment on information monitored by the monitoring device and information shared by the other systems, thus adjusting the luminance of the LED lamps or turning off the LED lamps.
Description
Technical field
The utility model relates to technical field of lighting fixtures, is specifically related to wind and light complementary road lamp system and network.
Background technology
Wind and light complementary road lamp is a kind of utilize wind power generation and solar energy power generating, in storage battery, supplies the street lamp of LED lamp illumination to electrical power storage.
Wind and light complementary road lamp can be laid power cable in theory, reduces the cost of supply line's construction.Need not use external power, reduce the carbon discharge capacity.Like this on the wind and light complementary road lamp ideal in some suburbs, the outlying district has superiority than common street lamp.And in fact since wind energy and solar energy with weather and seasonal variations.When meeting relatively poor weather, for example continuous many days, rainy day and the big greasy weather of ten a few days, at this time, cause the supply of electrical energy deficiency of LED lamp because wind energy is all lacked with solar energy, when accumulator electric-quantity used up, street lamp just can't be worked.
In order to guarantee that the LED lamp can be in the work of continuous many days of relatively poor weather, ten a few days.Two ways are arranged at present: the one, strengthen generate output and storage battery, the 2nd, insert external power.First method has significantly increased the wind and light complementary road lamp cost, and second method can't embody the advantage on the wind and light complementary road lamp ideal.
In addition; Present disclosed wind and light complementary road lamp is with sunray control light on and off lamp, with regularly coming bright lamp to turn off the light or sunray and regularly employing simultaneously; Can't avoid like this when not needing bright lamp or light too bright, the lamp that do not work automatically perhaps reduces lamplight brightness, and this has just run counter to the original intention of wind and light complementary road lamp energy-saving and emission-reduction; Also run counter to and used the original intention of LED, possibly cause unnecessary light pollution suburbs, outlying district as the adjustable light luminance of light source.
The utility model content
The purpose of the utility model is the use that reasonably distributes one or more wind and light complementary road lamp, reduces the consumption of LED electric energy, and wind and light complementary road lamp can be worked under relatively poor weather condition the longer time; This purpose is realized by following technical scheme:
A kind of intelligent wind and light complementary road lamp system is characterized in that, comprising: storage battery; Wind-light complementing power generation device is connected with storage battery, is that electric energy inputs to storage battery with wind energy, solar energy converting; The LED lamp is connected with storage battery, accepts the electric energy of storage battery; Monitoring device converts road surface wagon flow situation, pedestrian's situation into data-signal with the mode of sensing, and inputs to control device; Control device; Comprise data processing module, charge management module and LED lamp energy supply control module; Charge management module control wind-light complementing power generation device is to the charging process of storage battery, and the cue that data-signal that data processing module reception battery condition signal, monitoring device provide and wireless communication module receive generates control signal after the analyzing and processing; LED lamp energy supply control module receives said control signal, the brightness of adjustment LED lamp or close; Wireless communication module is connected with control module, is used between a plurality of wind and light complementary road lamp system or the communication between wind and light complementary road lamp system and the turn-key system.
A kind of intelligent wind and light complementary road lamp grid; It is characterized in that; Comprise a plurality of above-mentioned intelligent wind and light complementary road lamp systems and a turn-key system; Turn-key system has wireless communication module, and the wireless communication module in the intelligent wind and light complementary road lamp of turn-key system and each system communication to each other connects.
Intelligent wind and light complementary road lamp system and network that the utility model provides; Mainly be to utilize monitoring device to transfer the wagon flow, the pedestrian's situation that monitor to transfer of data to control module, and control device can be given other wind and light complementary road lamp system the transfer of data of the wagon flow of this position, pedestrian's situation through wireless communication apparatus.Control device information and other system's Sharing Information that just can arrive according to self system monitoring device monitoring so comprehensively judged best power supply plan, and then the brightness of adjustment LED lamp or close.The utility model can effectively reduce the consumption of LED electric energy, and wind and light complementary road lamp is worked under relatively poor weather condition the longer time.
Description of drawings
The pie graph of the separate unit intelligence wind and light complementary road lamp system that Fig. 1 provides for embodiment.
The pie graph of the intelligent wind and light complementary road lamp grid that Fig. 2 provides for embodiment.
The operation control flow chart of LED lamp under the intelligent wind and light complementary road lamp grid that Fig. 3 provides for embodiment.
The operation control flow chart of wind light mutual complementing power generation under the intelligent wind and light complementary road lamp grid that Fig. 4 provides for embodiment.
The Charge Management flow chart of storage battery under the intelligent wind and light complementary road lamp grid that Fig. 5 provides for embodiment.
Embodiment
Like accompanying drawing 1, present embodiment provides, and single intelligent wind and light complementary road lamp system comprises: wind-light complementing power generation device 101, control device 102, storage battery 103, LED lamp 104, monitoring device 105, wireless communication module 106.
Wind-light complementing power generation device 101 is mixing of wind power generation plant and solar energy photovoltaic generator, perhaps is simple wind power generation plant or simple solar energy photovoltaic generator.Control device 102 comprises data processing module, charge management module and LED lamp energy supply control module, and its function one is that 101 pairs of storage batterys of wind-light complementing power generation device 103 are carried out Charge Management; Function two is management LED lamps, can switch LED lamp 104 and regulate the brightness of LED lamp 104 through regulating electric current; Function three is apparatus for managing and monitoring 105, the data that process monitor devices 105 is surveyed; Function four is management wireless communication apparatus 106, sends data through wireless communication module 106 to the outside, handles the data that wireless communication apparatus 106 obtains.LED lamp 104 is to utilize the lighting device of light-emitting diode as light source, and the LED lamp energy supply control module through control device 102 is regulated output current, thereby regulates the brightness of LED lamp and close.
In the present embodiment; Monitoring device 105 be meant can monitoring intelligent wind and light complementary road lamp system around the device of road surface situation; Can adopt one or more radar sensors, laser sensor, infrared sensor, Video processing monitoring arrangement, sonic sensor, detector, doppler sensor or microwave remote sensor etc., monitoring device 105 handles to control device 102 transfer of data that obtains.In addition, wireless communication module 106 sends data and receives external data to the outside through wireless mode.Communication between the wireless communication module can realize through wireless lan (wlan) technology, Wireless Fidelity (Wi-Fi), Bluetooth technology or technology of infrared transmission.
As shown in Figure 2; Behind a plurality of above-mentioned intelligent wind and light complementary road lamp system group networks; Just constitute an intelligent wind and light complementary road lamp grid; This network also is provided with a turn-key system, and turn-key system comprises a wireless communication module equally, is connected with the wireless communication module communication of each intelligent wind and light complementary road lamp system.Among Fig. 2, wind-light complementing power generation device, control device, storage battery, LED lamp, monitoring device, the wireless communication module of second intelligent wind and light complementary road lamp system are designated 201,202,203,204,205 and 206 respectively; Wind-light complementing power generation device, control device, storage battery, LED lamp, monitoring device, the wireless communication module of the intelligent wind and light complementary road lamp of N system are designated N01, N02, N03, N04, N05 and N06 respectively.
As shown in Figure 3; Operation control flow based on LED lamp under the above-mentioned intelligent wind and light complementary road lamp grid is following: system brings into operation; The wireless communication module 106 of first intelligent wind and light complementary road lamp system (followingly correspondingly abbreviates first, second as ... N wireless communication module 106,206 ... Other module class of N06 are like being called for short) at first judge whether the safety command of receiving that turn-key system sends; If have (mainly is the system safety self-check by first control device 102 preferential execution safety commands then; Guarantee safety first), and safety command sent to second wireless communication module 206, and order passes down; Execute safety command (only show the step whether first intelligent wind and light complementary road lamp system receives safety command among Fig. 3, this step of follow-up each system is omitted) until N control device N02.If first wireless communication module 106 is not received safety command; Then judge whether to receive total control instruction (control command that mainly refers to artificial setting) that turn-key system sends; If have then and carry out total control instruction by first control device 102 controls the one LED lamp 104; And will always control instruction and send to second wireless communication module 206, and pass in proper order down, it is (same to carry out control instruction always until its LED lamp of N control device N02 control N04; Only show the step whether first intelligent wind and light complementary road lamp system receives total control instruction among Fig. 3, this step of follow-up each system is omitted); If do not receive that total control instruction then and then judge whether the zone instruction of receiving that turn-key system is sent.If first wireless communication module 106 is received the zone instruction; Then carry out the self-operating instruction by first control device 102 controls the one LED lamp 104; Near promptly first monitoring device 105 detects whether pedestrian or vehicle process are arranged; Have then and control a LED lamp 104 high power operations, do not have then by first control device 102 controls the one LED lamp 104 low power runs by first control device 102; If first wireless communication module 106 is not received zone instruction, then feedback signal is to turn-key system, informs that first intelligent wind and light complementary road lamp system does not have response.In addition; If first wireless communication module 106 is received the zone instruction; Then and then with the zone instruction be handed down to second wireless communication module 206; Second wireless communication module 206 judges whether to receive the zone instruction, carries out the self-operating instruction if having then by second control device 202, near promptly second monitoring device 205 detects whether pedestrian or vehicle process is arranged; Have then and control the 2nd LED lamp 204 high power operations, do not have then by second control device 202 controls the 2nd LED lamp 204 low power runs by second control device 202.If second wireless communication module 206 is not received the zone instruction that first wireless communication module 106 is transmitted, then feedback signal is to turn-key system, informs that second intelligent wind and light complementary road lamp system do not have response.In addition, if second wireless communication module 206 is received zone instruction, then and then with the zone instruction be handed down to the wireless communication module of follow-up system, so circulation is until N road lamp system.
As shown in Figure 4; Under above-mentioned intelligent wind and light complementary road lamp grid; The operation control flow of its wind light mutual complementing power generation is following: system brings into operation, and first wireless communication module 106 at first judges whether the safety command of receiving that turn-key system sends, if having then by the first control device 102 preferential safety commands of carrying out; And safety command is sent to second wireless communication module 206; And order passes down, executes safety command (only show the step whether first intelligent wind and light complementary road lamp system receives safety command among Fig. 4, this step of follow-up each system is omitted) until N control device N02.If first wireless communication module 106 is not received safety command; Then judge whether to receive total control instruction that turn-key system sends; If have then and carry out total control instruction by first control device 102 controls first wind-light complementing power generation device 101; And will always control instruction and send to second wireless communication module 206, and pass in proper order down, it is (same to carry out control instruction always until its wind-light complementing power generation device of N control device N02 control N01; Only show the step whether first intelligent wind and light complementary road lamp system receives total control instruction among Fig. 4, this step of follow-up each system is omitted); If do not receive that total control instruction then and then judge whether the zone instruction of receiving that turn-key system is sent.If first wireless communication module 106 is received the zone instruction, then carry out the self-operating instruction by first control device 102 controls first wind-light complementing power generation device 101; If first wireless communication module 106 is not received zone instruction, then feedback signal is to turn-key system, informs that first intelligent wind and light complementary road lamp system does not have response.In addition; If first wireless communication module 106 is received the zone instruction; Then and then with the zone instruction be handed down to second wireless communication module 206; Second wireless communication module 206 judges whether to receive the zone instruction, carries out the self-operating instruction if having then by second control device 202 controls second wind-light complementing power generation device 201, if second wireless communication module 206 is not received the zone instruction that first wireless communication module 106 is transmitted; Then feedback signal is to turn-key system, informs that second intelligent wind and light complementary road lamp system do not have response.In addition, if second wireless communication module 206 is received zone instruction, then and then with the zone instruction be handed down to the wireless communication module of follow-up system, so circulation is until N road lamp system.
As shown in Figure 5; Under above-mentioned intelligent wind and light complementary road lamp grid; The Charge Management flow process of its storage battery is following: system brings into operation, and first wireless communication module 106 at first judges whether the safety command of receiving that turn-key system sends, if having then by the first control device 102 preferential safety commands of carrying out; And safety command is sent to second wireless communication module 206; And order passes down, executes safety command (only show the step whether first intelligent wind and light complementary road lamp system receives safety command among Fig. 5, this step of follow-up each system is omitted) until N control device N02.If first wireless communication module 106 is not received safety command; Then judge whether to receive total control instruction that turn-key system sends; If the Charge Management of then being carried out total control instruction by 102 pairs first storage batterys of first control device 103 is arranged; And will always control instruction and be transmitted to second wireless communication module 206, and pass under the order, it is (same also to carry out total control instruction until N control device N02; Only show the step whether first intelligent wind and light complementary road lamp system receives total control instruction among Fig. 5, this step of follow-up each system is omitted); If first wireless communication module 106 does not receive that total control instruction then and then judge whether the zone instruction of receiving that turn-key system is sent.If first wireless communication module 106 is received the zone instruction, then carry out the self-operating Charge Management by 102 pairs first storage batterys of first control device 103; If first wireless communication module 106 is not received zone instruction, then feedback signal is to turn-key system, informs that first intelligent wind and light complementary road lamp system does not have response.In addition; If first wireless communication module 106 is received the zone instruction; Then and then with the zone instruction be handed down to second wireless communication module 206; Second wireless communication module 206 judges whether to receive the zone instruction, carries out the self-operating Charge Management if having then by 202 pairs second storage batterys of second control device 203, if second wireless communication module 206 is not received the zone instruction that first wireless communication module 106 is transmitted; Then feedback signal is to turn-key system, informs that second intelligent wind and light complementary road lamp system do not have response.In addition, if second wireless communication module 206 is received zone instruction, then and then with the zone instruction be handed down to the wireless communication module of follow-up system, so circulation is until N road lamp system.
The grid that above embodiment provides has function, the street lamp of transmission data between the street lamp and always transmits the function of function, management and the expansion native system of data between the control; For example can know the situation of certain, certain section honourable street lamp operation from total control; Know highway section ruuning situation from total control, from certain of total control commander, certain section, the honourable street lamp operation of full section.
Claims (2)
1. an intelligent wind and light complementary road lamp system is characterized in that, comprising: storage battery; Wind-light complementing power generation device is connected with storage battery, is that electric energy inputs to storage battery with wind energy, solar energy converting; The LED lamp is connected with storage battery, accepts the electric energy of storage battery; Monitoring device converts road surface wagon flow situation, pedestrian's situation into data-signal with the mode of sensing, and inputs to control device; Control device; Comprise data processing module, charge management module and LED lamp energy supply control module; Charge management module control wind-light complementing power generation device is to the charging process of storage battery, and the cue that data-signal that data processing module reception battery condition signal, monitoring device provide and wireless communication module receive generates control signal after the analyzing and processing; LED lamp energy supply control module receives said control signal, the brightness of adjustment LED lamp or close; Wireless communication module is connected with control module, is used between a plurality of wind and light complementary road lamp system or the communication between wind and light complementary road lamp system and the turn-key system.
2. intelligent wind and light complementary road lamp grid; It is characterized in that; Comprise the described intelligent wind and light complementary road lamp system of a plurality of claims 1 and a turn-key system; Turn-key system has wireless communication module, and the wireless communication module in the intelligent wind and light complementary road lamp of turn-key system and each system communication to each other connects.
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CN2011205537325U CN202435668U (en) | 2011-12-26 | 2011-12-26 | Intelligent wind-solar complementation street lighting system and network |
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CN2011205537325U CN202435668U (en) | 2011-12-26 | 2011-12-26 | Intelligent wind-solar complementation street lighting system and network |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102655699A (en) * | 2011-12-26 | 2012-09-05 | 珠海市洁源电器有限公司 | Intelligent wind and light complementation street lamp system, network and control method |
CN103702485A (en) * | 2013-12-23 | 2014-04-02 | 北京光桥科技股份有限公司 | Intelligent video induction LED (Light Emitting Diode) roadway lighting system |
-
2011
- 2011-12-26 CN CN2011205537325U patent/CN202435668U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102655699A (en) * | 2011-12-26 | 2012-09-05 | 珠海市洁源电器有限公司 | Intelligent wind and light complementation street lamp system, network and control method |
CN102655699B (en) * | 2011-12-26 | 2014-06-25 | 珠海市洁源电器有限公司 | Intelligent wind and light complementation street lamp system, network and control method |
CN103702485A (en) * | 2013-12-23 | 2014-04-02 | 北京光桥科技股份有限公司 | Intelligent video induction LED (Light Emitting Diode) roadway lighting system |
CN103702485B (en) * | 2013-12-23 | 2016-01-20 | 北京光桥科技股份有限公司 | A kind of intelligent video induction LED roadway lighting system |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120912 Termination date: 20131226 |