CN201479429U

CN201479429U - LED street lamp system using Internet and series radio-frequency network

Info

Publication number: CN201479429U
Application number: CN2009202048194U
Authority: CN
Inventors: 林卓明; 孟浩强
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-09-07
Filing date: 2009-09-07
Publication date: 2010-05-19
Anticipated expiration: 2019-09-07

Abstract

The utility model relates to an LED street lamp system using an Internet and a series radio-frequency network, which comprises a control center, at least one domain station and at least one way of LED street lamp unit, wherein the control center is used for sending LED street light control instructions to the domain stations through the Internet and receiving supervision signals of one way of LED street lamp unit belonging to the domain station which are fed back by the domain station, and the one way of LED street lamp unit comprises at least one LED street lamp device; and the LED street lamp device is used for turning on or off LED lamps and adjusting the corresponding brightness according to the received control instructions and acquired light intensity. The system can integrally, partitionedly or independently control and supervise each street lamp of the whole city, districts and streets under the management of the control center, and can set the turning-on, turning-off and brightness adjustment of the street lamps in different periods of time so as to achieve the energy-saving effect, and simultaneously can supervise the operational state of each street lamp, and detect which street lamp has a fault and timely maintain the faulty street lamp so as to ensure road safety.

Description

The LED road lamp system of internet usage network and series radio-frequency network

Technical field

The utility model relates to street lamp, more particularly, relates to the LED road lamp system of a kind of internet usage network and series radio-frequency network.

Background technology

Current countries in the world are all attached great importance to environmental protection, reduce discharging energy-conservation by every possible means.The appearance of LED street lamp makes to reduce discharging the energy-conservation major step of having stepped.More than 30%, the useful life of LED lamp is longer five times than sodium vapor lamp simultaneously compared with the sodium vapor lamp power saving in much still making for the LED street lamp.So the LED street lamp will all replace sodium vapor lamp.And the appearance of this energy conserving system will be optimized the energy-saving effect of LED street lamp more, and conservative estimation can save energy more than 50% than sodium vapor lamp.But the ununified controlled function of transitional street lamps system can not be unified control and condition to the street lamp in whole zone, can not monitor the street lamp that is out of order in real time simultaneously, is not easy to maintenance.

The utility model content

The technical problems to be solved in the utility model is, the ununified controlled function of road lamp system at prior art, can not unify control and condition to the street lamp in whole zone, simultaneously can not monitor the street lamp that is out of order in real time, be not easy to defectives such as maintenance, the LED road lamp system of a kind of internet usage network and series radio-frequency network is provided.

The technical scheme that its technical problem that solves the utility model adopts is: the LED road lamp system of constructing a kind of internet usage network and series radio-frequency network, it comprises control centre, at least one station, territory and at least one paths of LEDs street lamp unit, wherein, control centre is used for sending LED street lamp control command by the internet to the station, territory, and the supervision signal of its affiliated paths of LEDs street lamp unit is fed back at the acceptance domain station; One paths of LEDs street lamp unit comprises at least one LED road lamp device, and the LED road lamp device is used for opening or closing its LED lamp and regulate corresponding brightness according to control command that receives and the intensity of illumination that collects.

In the LED road lamp system of internet usage network described in the utility model and series radio-frequency network, described control centre is connected to described at least one station, territory by the internet, and data communication is carried out by a series radio-frequency network and a paths of LEDs street lamp unit in station, a territory.

In the LED road lamp system of internet usage network described in the utility model and series radio-frequency network, the LED road lamp system of described internet usage network and series radio-frequency network comprises station, a plurality of territory and LED multi-path street lamp unit, wherein, station, a territory is corresponding with a paths of LEDs street lamp unit, and each station, territory receives the supervision signal of LED street lamp control command that described control centre sends and an affiliated paths of LEDs street lamp unit thereof.

In the LED road lamp system of internet usage network described in the utility model and series radio-frequency network, a paths of LEDs street lamp unit comprises a plurality of LED road lamp devices of series connection communication.

In the LED road lamp system of internet usage network described in the utility model and series radio-frequency network, each station, territory comprises station, territory microprocessor, and the network interface and the radio-frequency (RF) transceiver that are electrically connected with station, described territory microprocessor respectively, wherein, described network interface is used for being connected with described control centre, and described radio-frequency (RF) transceiver is used for carrying out data communication with LED street lamp unit.

In the LED road lamp system of internet usage network described in the utility model and series radio-frequency network, described LED road lamp device comprises the microcontroller processor, and radio-frequency (RF) transceiver, LED lamp and the photometric detection transducer of respectively described microcontroller processor electrical connection; Wherein, the light detecting signal that control command that described microcontroller processor receives according to radio-frequency (RF) transceiver and photometric detection sensor arrive is with the unlatching of controlling described LED lamp or close and regulate its brightness; Described radio-frequency (RF) transceiver is used to receive control command and the feedback signal that the upper level radio-frequency (RF) transceiver sends, and to next stage radio-frequency (RF) transceiver sending controling instruction and receive the feedback signal of its transmission.

In the LED road lamp system of internet usage network described in the utility model and series radio-frequency network, a plurality of LED road lamp devices of series connection communication in every paths of LEDs street lamp unit carry out the transmission of control command and supervision signal by power line.

Implement the LED road lamp system of internet usage network of the present utility model and series radio-frequency network, have following beneficial effect: by the Internet and radio frequency network control command is sent to each street lamp by control centre.Can also independently supervise the function situation that each props up street lamp simultaneously, as its street lamp fault be arranged, system can beam back control centre with fault message in real time, carries out alarm in control centre, thereby can arrange the maintenance personal to keep in repair immediately, guarantees to use the safety of road.This system provides a cover to regulate the brightness of street lamp and the function situation of supervision street lamp by different needs in control centre, and it is careful about each independent street lamp, and the control personnel are come into plain view, and has strengthened the management to street lamp.Can be by different highway sections, different vehicle flowrates and different period are regulated the brightness of light, thereby reach energy-saving effect.For example in that it is also fully dark at dusk, as 6 up to 6: 30, lamplight brightness transfers to 50%, and by 6 o'clock 30 minutes to 7 o'clock, lamplight brightness transferred to 75% afterwards.At peak hours/period, as evening 7 up to 11 o'clock, just transfer to 100%, reduce up to 1 o'clock vehicle flowrate to midnight 11, brightness recalls to 75%.By 1 up to 6 o'clock mornings, vehicle flowrate seldom, lamplight brightness transfers to 50%.Further, owing to use the LED lamp to throw light on, the LED lamp reaches 65% to 70% than high-pressure sodium lamp power saving; The durability of LED lamp is 5 times of high-pressure sodium lamps, and the life-span of existing LED lamp, the useful life of high-pressure sodium lamp was lower than 20,000 hours up to 100,000 hours; The LED lamp does not exist and adheres to dust and high temperature ageing; LED lamp weight is light and handy, reduces installation cost relatively.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the system configuration schematic diagram of the LED road lamp system of the utility model internet usage network and series radio-frequency network;

Fig. 2 is the circuit block diagram at station, territory shown in Figure 1;

Fig. 3 is the circuit block diagram of LED road lamp device shown in Figure 1.

Embodiment

As shown in Figure 1, in the LED road lamp system of internet usage network of the present utility model and series radio-frequency network, it comprises control centre 1, at least one station, territory 2 and at least one paths of LEDs street lamp unit 3, at work, control centre 1 carries out data transmit-receive with each station, territory 2 respectively, and 2 corresponding paths of LEDs street lamp unit 3, station, a territory, wherein, control centre 1 is used for sending LED street lamp control command to station, territory 2, this control command opens or closes the signal of LED street lamp for control, if be start signal, also comprise sign in this start signal to the current period, so that the brightness of LED street lamp is regulated, and the acceptance domain station feeds back the supervision signal of the paths of LEDs street lamp unit under it, and the LED street lamp that this supervision signal can reflect which node in this paths of LEDs street lamp unit breaks down; One paths of LEDs street lamp unit comprises at least one LED road lamp device, and the LED road lamp device is used for opening or closing its LED lamp and regulate corresponding brightness according to control command that receives and the intensity of illumination that collects.

Control centre 1 has unique sign of each station, territory 2 and LED road lamp device, can be numbering or name, in when operation, and optional independent control, i.e. the directly numbering or the name of input domain station and LED road lamp device, input control order again, as turn on light or turn off the light etc.As select subregion control, i.e. directly input domain station numbering or name is just input control order can again.As unify control, just then directly input control order can.Its also predeterminable control command in the different periods, computer can send control command in the default period automatically.This control centre 1 can supervise the running of each street lamp, and its method is the signal that receives by station, territory 2 feedbacks, and the numbering or the name of station, territory and street lamp are arranged in this feedback signal, also has the running coding of street lamp, thereby learns the function situation of street lamp.

In a preferred embodiment, the LED road lamp system of this internet usage network and series radio-frequency network comprises station, a plurality of territory 2 and LED multi-path street lamp unit 3, wherein, station, a territory 2 is corresponding with a paths of LEDs street lamp unit 3, the supervision signal of a LED street lamp control command that each station, territory 2 reception control centre 1 sends and an affiliated paths of LEDs street lamp unit 3 thereof.And a paths of LEDs street lamp unit 3 comprises a plurality of LED road lamp devices of series connection communication.In a preferred embodiment, in this paths of LEDs street lamp unit 3, the radio-frequency (RF) transceiver of first street lamp makes progress directly and station, territory 2 communicates, directly communicate downwards with second street lamp, second street lamp is communicated by letter with the radio-frequency (RF) transceiver of Third Road lamp downwards again, so analogizes, and one until last street lamp.When having fault can not correctly receive instruction, can get in touch more upper level or more next stage automatically, simultaneously the fault-signal feedback be sent as the street lamp of higher level or subordinate.

Among the embodiment as shown in Figure 2, each station, territory 2 comprises station, territory microprocessor, and the network interface and the radio-frequency (RF) transceiver that are electrically connected with this station, territory microprocessor respectively, wherein, network interface is used for being connected with control centre 1, when specific design, this connectivity scenario can be TCP/IP (Transport ControlProtocol/Internet Protocol) or GPRS (General Packet Radio Service) or WiFi (Wireless Fidelity) mode.Described radio-frequency (RF) transceiver is used for carrying out data communication with LED street lamp unit.The control command that control centre 1 sends is by the Internet instruction to be sent to station, territory 2, station, territory 2 is repeater stations, when it receives the control command of being sent by control centre 1, immediately this instruction is delivered to the radio-frequency (RF) transceiver at station, territory 2, by radio frequency network control command is sent to the radio-frequency (RF) transceiver in first street lamp of this paths of LEDs street lamp unit 3 by radio-frequency (RF) transceiver, first street lamp carries out different actions according to the coding of different control commands then, dark etc. as switch, light, then again this control command is sent toward next stage.Conversely, as street lamp fault is arranged, fault-signal is fed back the radio-frequency (RF) transceiver that is sent in the station, territory 2 by this street lamp, be resent to control centre 1 by radio-frequency (RF) transceiver, control centre 1 can report to the police automatically, control and aufsichtsrat know in real time and can arrange the maintenance personal to keep in repair, and ensure that road is safe in utilization.

Among the embodiment as shown in Figure 3, LED road lamp device 31 comprises the microcontroller processor, and radio-frequency (RF) transceiver, LED lamp and the photometric detection transducer of this microcontroller processor electrical connection respectively; Wherein, the light detecting signal that control command that the microcontroller processor receives according to radio-frequency (RF) transceiver and photometric detection sensor arrive is with the unlatching of control LED lamp or close and regulate its brightness; Promptly when opening the LED street lamp, the microcontroller processor receives control command by radio-frequency (RF) transceiver, and it is resolved, comprising indicating by open command and current period, the microcontroller processor indicated according to the current period in the control command, from memory, read the brightness regulation corresponding with this period, the signal that also arrives simultaneously by the photometric detection sensor, comprehensive analysis processing, thereby the brightness of control LED lamp, radio-frequency (RF) transceiver is used to receive control command and the feedback signal that the upper level radio-frequency (RF) transceiver sends, and to next stage radio-frequency (RF) transceiver sending controling instruction and receive the feedback signal of its transmission.

The LED road lamp system of this internet usage network and series radio-frequency network is based on control LED road lamp network, aims at the arterial highway of country, urban and suburban roads, and comprise the garden, room of large, medium and small type or groups of building and make design targetedly.It can save 55% power consumption than existing high-pure gas discharge lamp (High intensitydischarge lamp is called for short sodium vapor lamp).With the photoelectric efficiency of present LED lamp, can provide 50 lumens (Lumen) for per 1 watt, believe that the photoelectric efficiency of LED lamp can surmount 100 lumens/every watt (Lumen/Watt) in the near future.Current LED street lamp that can 250W replaces the high-pressure sodium lamp of 400W, only replaces high-pressure sodium lamp with the LED street lamp in other words and can save about 37%.With general street lamp operating mode, by dusk every day 6:00pm to early morning on next day 6:00am calculated in totally 12 hours, then street lamp power consumption is as follows: the power consumption of high-pressure sodium lamp every day is 12 hours * 400 watts/1000=4.8kwh; And its power consumption will be reduced to 12 hours * 250 watts/1000=3kwh after using the LED street lamp instead, obviously also save 42.5% electricity charge.

The LED road lamp system of this internet usage network and series radio-frequency network will be according to the in addition light quantity output of programming Control LED street lamp of the hours of daylight pattern of different regions, thereby reach the further saving energy.On the south CHINESE REGION be example, the LED road lamp system of this internet usage network and series radio-frequency network is worked out following illumination mode:

Afternoon, 6:00pm was to 10:00pm luminance 100% output in evening;

Evening 10:00pm to midnight 00:00 transfer to 75% luminance zero morning;

Zero morning 00.00am to early morning 6:00am transfer to 50% luminance;

Power consumption every day of each LED street lamp will be reduced to again:

First period: 4 hours * 250 watts/1000=1kwh;

Second period: 2 hours * 250 watts * 75%/1000=0.375kwh;

The 3rd period: 4 hours * 250 watts * 50%/1000=0.5kwh;

Every branch road Lantern Festival economizes 47%, saves 73% than high-pressure sodium lamp.With conservative estimation, after changing the LED street lamp and this system being installed since the life-span of LED street lamp reach 5 times than high-pressure sodium lamp, so will save more than 30% again in maintenance and the expenditure changed.

The utility model describes by several specific embodiments, it will be appreciated by those skilled in the art that, under the situation that does not break away from the utility model scope, can also carry out various conversion and be equal to alternative the utility model.In addition, at particular condition or concrete condition, can make various modifications to the utility model, and not break away from scope of the present utility model.Therefore, the utility model is not limited to disclosed specific embodiment, and should comprise the whole execution modes that fall in the utility model claim scope.

Claims

1. the LED road lamp system of internet usage network and series radio-frequency network, it is characterized in that, comprise control centre, at least one station, territory and at least one paths of LEDs street lamp unit, wherein, control centre is used for sending LED street lamp control command by the internet to the station, territory, and the supervision signal of its affiliated paths of LEDs street lamp unit is fed back at the acceptance domain station; One paths of LEDs street lamp unit comprises at least one LED road lamp device, and the LED road lamp device is used for opening or closing its LED lamp and regulate corresponding brightness according to control command that receives and the intensity of illumination that collects.

2. the LED road lamp system of internet usage network according to claim 1 and series radio-frequency network, it is characterized in that, described control centre is connected to described at least one station, territory by the internet, and data communication is carried out by a series radio-frequency network and a paths of LEDs street lamp unit in station, a territory.

3. the LED road lamp system of internet usage network according to claim 1 and series radio-frequency network, it is characterized in that, the LED road lamp system of described internet usage network and series radio-frequency network comprises station, a plurality of territory and LED multi-path street lamp unit, wherein, station, a territory is corresponding with a paths of LEDs street lamp unit, and each station, territory receives the supervision signal of LED street lamp control command that described control centre sends and an affiliated paths of LEDs street lamp unit thereof.

4. the LED road lamp system of internet usage network according to claim 1 and series radio-frequency network is characterized in that, a paths of LEDs street lamp unit comprises a plurality of LED road lamp devices of series connection communication.

5. according to the LED road lamp system of arbitrary described internet usage network of claim 1～4 and series radio-frequency network, it is characterized in that, each station, territory comprises station, territory microprocessor, and the network interface and the radio-frequency (RF) transceiver that are electrically connected with station, described territory microprocessor respectively, wherein, described network interface is used for being connected with described control centre, and described radio-frequency (RF) transceiver is used for carrying out data communication with LED street lamp unit.

6. according to the LED road lamp system of arbitrary described internet usage network of claim 1～4 and series radio-frequency network, it is characterized in that, described LED road lamp device comprises the microcontroller processor, and radio-frequency (RF) transceiver, LED lamp and the photometric detection transducer of respectively described microcontroller processor electrical connection; Wherein, the light detecting signal that control command that described microcontroller processor receives according to radio-frequency (RF) transceiver and photometric detection sensor arrive is with the unlatching of controlling described LED lamp or close and regulate its brightness; Described radio-frequency (RF) transceiver is used to receive control command and the feedback signal that the upper level radio-frequency (RF) transceiver sends, and to next stage radio-frequency (RF) transceiver sending controling instruction and receive the feedback signal of its transmission.

7. according to the LED road lamp system of arbitrary described internet usage network of claim 1～4 and series radio-frequency network, it is characterized in that, a plurality of LED road lamp devices of series connection communication in every paths of LEDs street lamp unit carry out the transmission of control command and supervision signal by power line.