CN203691676U - LED street lamp illumination monitoring system - Google Patents

Abstract

The utility model provides an LED street lamp illumination monitoring system, comprising a central control center, connected with a first power network bridge located remotely; a second power network bridge at a home terminal of the LED street lamp; and an equipment controller connected with the LED street lamp. The equipment controller is provided with a fault sensor, a switch circuit, a brightness sensor and a control circuit. The control circuit is in an electric connection with the second power network bridge, and used for receiving electric power supply, analyzing control instructions and executing the instructions, receiving fault signals transmitted by the fault sensor and brightness signals transmitted by the brightness sensor and uploading the signals to the central control center through the second power network bridge and the first power network bridge. According to the utility model, the power network bridges are applied to the LED street lamp illumination monitoring system, cost of independent network cable arrangement is saved, and construction difficulty is reduced. Moreover, monitoring of the brightness and the fault information is realized at the same time of power on-off control.

Description

LED street lighting supervisory control system

Technical field

The utility model relates to LED street lamp technical field, specifically refers to a kind of LED street lighting supervisory control system.

Background technology

Because LED light source has the advantage such as energy-saving and environmental protection, life-span length with respect to conventional light source, to widely popularize in country under the policy environment of road lamp energy-saving transformation, LED street lamp is being widelyd popularize in the middle of road administration illumination.But, because LED illuminating product is ripe not enough in technology aspect heat radiation, power supply at present, cause LED lighting be applied to need long-time energising work, while laying quantity and the larger road administration field of mutual spacing, than the quite ripe conventional road lamp of technology, the importance that monitoring is safeguarded seems particularly important.

For the monitoring technique of LED street lamp, on product, there is certain popularizing at present, still, existing LED streetlight monitoring technology, mostly is simple on/off control.For LED street lamp, except simple on/off control, in the object of maintenance and light modulation, also need to monitor brightness of illumination, the ambient temperature of LED street lamp and whether break down.

Meanwhile, the existing illumination monitoring system that is applied to other field, adopts independently holding wire to realize the transmission of monitored instruction and illumination sign more, is applied in Street Lamp Monitor System as indiscriminately imitated, and it is particularly huge that the workload of wiring and cost will seem.

Along with scientific and technological development, power carrier communication, as the distinctive communication mode of a kind of electric power system, has had certain development in technology maturity and product application.Power carrier communication is to utilize existing power line, by carrier system, analog or digital signal is carried out to the technology of high-speed transfer, its great advantage is not need again to set up network, as long as live wire, just can carry out data transmission, if effectively for LED Street Lamp Monitor System, will bring very large good effect from cost and construction.

Utility model content

The purpose of this utility model is to overcome above-mentioned deficiency of the prior art, a kind of LED street lighting supervisory control system is provided, this supervisory control system is by arranging electric power networks bridger, utilize power carrier mode to transmit monitored instruction and illumination sign, save the Cost Problems that independent layout grid line brings, also reduced difficulty of construction.

The purpose of this utility model is achieved through the following technical solutions: a kind of LED street lighting supervisory control system, comprising:

For the CCC of remote monitoring LED street lamp, CCC is positioned at the first long-range electric power networks bridger connection with same;

Be positioned at the second electric power networks bridger of LED street lamp local terminal, intervening equipment controller after being connected with the first electric power networks bridger;

Device controller, is connected with LED street lamp.

In such scheme, between the second electric power networks bridger of LED street lamp local terminal and the first electric power networks bridger, carry out electric power transfer, the illumination sign producing to the monitored instruction of device controller, device controller is assigned to transmit in the mode of power carrier by the first electric power networks bridger, second network bridger by CCC, pass through, the power for operation supply of LED street lamp, also obtains in the middle of the second electric power networks bridger by device controller.

Preferably, described device controller is provided with:

Fault sensor, is connected with control circuit, gathers fault-signal and passes to control circuit;

Switching circuit, electric power is situated between and is connected between control circuit, LED street lamp;

Luminance sensor, is connected with control circuit, gathers luminance signal and passes to control circuit;

Control circuit, be connected with the second electric power networks bridger electric power, receive supply of electric power and analyze monitored instruction and carry out, the luminance signal that the fault-signal that reception fault sensor is passed to and luminance sensor transmit is also uploaded to CCC through the second electric power networks bridger, the first electric power networks bridger.

In above scheme, the effect of the first electric power networks bridger, the second electric power networks bridger is to realize power supply power delivery, and the power carrier mode of monitored instruction and illumination information is transmitted.

The utility model has the following advantages and beneficial effect compared to existing technology:

The utility model, by electric power networks bridger being applied to LED street lighting supervisory control system, has been saved the Cost Problems that independent layout grid line brings, and has also reduced difficulty of construction; And, in having realized on/off control, also realize the monitoring of brightness, fault message.

Brief description of the drawings

Fig. 1 is the structure chart of the utility model LED street lighting supervisory control system.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but execution mode of the present utility model is not limited to this.

Embodiment

As shown in Figure 1, a kind of LED street lighting supervisory control system, comprising:

For the CCC of remote monitoring LED street lamp, CCC is positioned at the first long-range electric power networks bridger connection with same;

Be positioned at the second electric power networks bridger of LED street lamp local terminal, intervening equipment controller after being connected with the first electric power networks bridger;

Device controller, is connected with LED street lamp.

Described device controller is provided with:

Fault sensor, is connected with control circuit, gathers fault-signal and passes to control circuit;

Switching circuit, electric power is situated between and is connected between control circuit, LED street lamp;

Luminance sensor, is connected with control circuit, gathers luminance signal and passes to control circuit;

Control circuit, be connected with the second electric power networks bridger electric power, receive supply of electric power and analyze monitored instruction and carry out, the luminance signal that the fault-signal that reception fault sensor is passed to and luminance sensor transmit is also uploaded to CCC through the second electric power networks bridger, the first electric power networks bridger.

In above scheme, the effect of the first electric power networks bridger, the second electric power networks bridger is to realize power supply power delivery, and the power carrier mode of monitored instruction and illumination information is transmitted.

Above-described embodiment is preferably execution mode of the utility model; but execution mode of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under Spirit Essence of the present utility model and principle, substitutes, combination, simplify; all should be equivalent substitute mode, within being included in protection range of the present utility model.

Claims (2)

1. a LED street lighting supervisory control system, is characterized in that, comprising:

For the CCC of remote monitoring LED street lamp, CCC is positioned at the first long-range electric power networks bridger connection with same;

Be positioned at the second electric power networks bridger of LED street lamp local terminal, intervening equipment controller after being connected with the first electric power networks bridger;

Device controller, is connected with LED street lamp.

2. LED street lighting supervisory control system according to claim 1, is characterized in that, described device controller is provided with:

Fault sensor, is connected with control circuit, gathers fault-signal and passes to control circuit;

Switching circuit, electric power is situated between and is connected between control circuit, LED street lamp;

Luminance sensor, is connected with control circuit, gathers luminance signal and passes to control circuit;

Control circuit, be connected with the second electric power networks bridger electric power, receive supply of electric power and analyze monitored instruction and carry out, the luminance signal that the fault-signal that reception fault sensor is passed to and luminance sensor transmit is also uploaded to CCC through the second electric power networks bridger, the first electric power networks bridger.