CN201145171Y - Cable-stayed bridge landscape lamp - Google Patents

Abstract

The utility model discloses a cable-stayed bridge landscape lamp, which comprises a main control module (2) and LED light-emitting modules (1), wherein the bottom of each cable (3) is provided with a steel cable lamp control module (10), and the LED light-emitting modules (1) arranged on each cable (3) are sequentially connected by wires and then are connected to the steel cable lamp control module (10); solar photovoltaic components (4) are arranged in the main control module (2), the steel cable lamp control module (10) and each LED light-emitting module (1). The utility model discloses a solar cell power supply has practiced thrift the electric energy to the mode that adopts wireless control controls the demonstration and the pattern change of LED lamp piece, need not carry out complicated wiring construction, has and has advantages such as economy, energy-conservation, installation, convenient to use.

Description

The stayed-cable bridge Landscape Lamp

Technical field

The utility model relates to a kind of Landscape Lamp, especially a kind of stayed-cable bridge Landscape Lamp.

Background technology

Be arranged on the effect that various Landscape Lamps in the city not only have illumination, also be the landscape that has increased a lot of beauty that beautifies in city.But it need consume a large amount of electric energy, not only increases expenditure, and for the relatively nervous city of electricity consumption, is saves energy, often can only just open use in some period.And for being installed in bridge and body of wall that some are taller and bigger or the Landscape Lamp on the building, because difficult wiring maybe can't connect up, to the control of these Landscape Lamps difficulty relatively often.

The utility model content

The technical problems to be solved in the utility model is: a kind of cable-stayed bridge solar energy scenery lamp is provided, it can effectively solve the power consumption of Landscape Lamp and to being installed in bridge and taller and bigger body of wall or the control problem of the Landscape Lamp on the building, thereby overcomes the deficiency that prior art exists.

The technical solution adopted in the utility model is such: comprise main control module (2) and LED light emitting module (1), in the bottom of drag-line (3) cable wire lamp control module (10) is housed, is contained between the LED light emitting module (1) on the every drag-line (3) and is connected to cable wire lamp control module (10) again after the connection successively in order with lead; In main control module (2), cable wire lamp control module (10) and each LED light emitting module (1), solar photovoltaic assembly (4) is housed.

Wireless sending module (5) is housed in main control module (2), wireless receiving module (6) is housed in cable wire lamp control module (10).

Controller (11) is arranged in cable wire lamp control module (10), master controller (9) is arranged in main control module (2); Controller (11), master controller (9), wireless receiving module (6) and wireless sending module (5) are connected solar photovoltaic assembly (4) respectively.

LED lamp sheet (7) and deserializer (8) are arranged in LED light emitting module (1), and LED lamp sheet (7), deserializer (8) are connected to solar photovoltaic assembly (4) respectively; LED lamp sheet (7) connects deserializer (8).

Master controller (9) is single-chip microcomputer or industrial computer, and decorative pattern flicker control software is housed in master controller (9).

Compared with prior art, Landscape Lamp of the present utility model adopts solar cell for supplying power, has saved electric energy, and according to from late 18:00 to working time of 01:00 after midnight, continuous operation is 30 hours after once charging 8 hours, has economy, energy-conservation characteristics.And the utility model adopts the mode of controlled in wireless to control the demonstration and the change in pattern of LED lamp sheet, do not need to carry out complicated cable wiring manufacture, effectively solved the control difficult problem that is installed in the Landscape Lamp on bridge, body of wall or other high-lager buildings, installation, easy to use.This product is mainly used on the large-scale stayed-cable bridge, as the view of a kind of uniqueness in city.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is a realization schematic diagram of the present utility model;

Fig. 3 is the structural representation of single led module of the present utility model;

Fig. 4 is the sectional view of accompanying drawing 3;

Fig. 5 is the scheme of installation of solar photovoltaic assembly of the present utility model.

The specific embodiment

Embodiment of the present utility model: as shown in Figure 1, it comprises 1 main control module 2 and 600 LED light emitting modules 1,600 LED light emitting modules 1 are divided on the intersection point of drag-line 3 that both sides are evenly arranged in stayed-cable bridge and horizontal dotted line, and according to certain distance interval layout, every side is arranged 300,30 drag-lines 3 of every side, thus a display screen formed at whole drag-line face.A cable wire lamp control module 10 is housed in the bottom of every drag-line 3, controller 11 is arranged in cable wire lamp control module 10, be contained between the LED light emitting module 1 on the every drag-line 3 controller 11 that is connected to cable wire lamp control module 10 after connecting successively in order with lead again, lead can transfer control signal, and the monochrome information control signal is sent by controller 11.In main control module 2, cable wire lamp control module 10 and each LED light emitting module 1, solar photovoltaic assembly 4 is housed, controller 11 is connected solar photovoltaic assembly 4 respectively with wireless receiving module 6, realize solar powered by solar photovoltaic assembly 4, solar photovoltaic assembly 4 adopts the mode of pegging graft to be movably connected on the LED light emitting module 1, and its structure as shown in Figure 5.Each solar photovoltaic assembly 4 is made of solar panel, battery and charging-discharging controller, and solar panel connects charging-discharging controller, and charging-discharging controller connects battery.Be continuous operation after satisfied once the charging 8 hours 30 hours, the general power 2W of each LED light emitting module 1, luminous flux＞=80lm, estimate the power of solar panel and battery according to above performance indications:

Solar cell power output plate: the operating voltage U=5v of LED light emitting module, its power output W=2w, solar-electricity tank discharge, charging interval are compared K=30h/8h=3.75, the voltage of solar cell will be higher than battery voltage 20%-30%, so charging voltage is Uc=7v, solar cell power is Wc=2w * 3.75=7.5w.

Battery power: the power output W=2w of LED light emitting module, be 30h discharge time, considers 80% depth of discharge, adds 10% self-discharge of battery, so need accumulator capacity to be:

2w×30h÷5v(1+(1-80％)+10％)＝15.6Ah。According to above-mentioned estimation, selecting the model of solar panel in this example is crystal silicon 410 * 265mm, power 10W, charging current 600mA, supply voltage 17V; Battery is the electric power storage Ni-MH battery, and model is H-AA1600A.Have by day under the solar irradiation situation storage of solar energy to battery, at night or the situation of insufficient light pass through storage battery power supply.Charging-discharging controller selects for use the commercially available prod to install.Wireless sending module 5 is housed in main control module 2, in each cable wire lamp control module 10, wireless receiving module 6 is housed; Main control module 2 connects each cable wire lamp control module 10 by wireless signal.

LED lamp sheet 7 and deserializer 8 are arranged in LED light emitting module 1, and deserializer 8 adopts the HM6B595 chip.LED lamp sheet 7 is arranged ringwise and towards the structure outside, thereby assurance LED light emitting module 1 can entangle steel cable 3, so that install.The serial lamp control signal that deserializer 8 is responsible for cable wire lamp control module 10 is sent converts parallel signal to, LED lamp sheet 7 is controlled, and lamp control signal and gating signal reached next stage, to transmit step by step, realize the control of the LED lamp sheet on the whole steel cable 3.LED lamp sheet 7 and deserializer 8 are connected to solar photovoltaic assembly 4 respectively; LED lamp sheet 7 connects deserializer 8; Deserializer 8 is connected with the controller 11 of cable wire lamp control module 10 by lead.

Master controller 9 is arranged in main control module 2, and master controller 9 adopts single-chip microcomputer or industrial computer, and main control module 2 is installed in the top (bottom or middle part) of stayed-cable bridge, shared one of full-bridge.Adopt the control chip of ATmega161 single-chip microcomputer as master controller 9 in this example, by the RXD of single-chip microcomputer, the wireless sending module 5 in TXD and the main control module 2 carries out serial communication.In master controller 9, can arbitrarily store various change pattern, and decorative pattern flicker control software is housed, all LED lamp sheets 7 are carried out the control of one-to-many, realize dynamic color decorative pattern flicker control, and realize monitoring to a certain extent each LED light emitting module 1 running status to LED lamp sheet 7.Master controller 9 is connected solar photovoltaic assembly 4 respectively with wireless sending module 5; Wireless sending module 5 connects the wireless receiving module 6 of each cable wire lamp control module 10 by wireless signal, realizes the change in pattern of wirelessly controlled LED lamp sheet 7, and the emissivities of wireless sending module 5 can cover the wireless receiving module 6 on the whole bridge.Each LED lamp sheet 7 adopts the allotment of RGB three primary colours, has seven kinds of change color, under the control of master controller 9, can realize certain image change by the led array that 600 LED lamp sheets are formed, and can realize the flicker of dynamic color decorative pattern.For preventing the interference of vehicle motor or other signals, the wireless sending module 5 that is contained in the wireless receiving module 6 on the LED light emitting module 1 and is contained on the master controller 9 selects for use Shenzhen to pacify the APC200A-91 chip of Transamerica Corp., have 600 meters transmission ranges (outdoor visual range), operating frequency 870-940MHz (1KHz stepping), have greater than 100 channels, it adopts the error correction and detection coding that interweaves that circulates efficiently, have stronger antijamming capability and high sensitivity, maximum can be entangled the continuous burst error of 24bits.And provide the selection of a plurality of channels, data that can any size of transparent transmission, and the user need not write complicated setting and transmission procedure, and provide UART/TTL, three kinds of interfaces of RS485 and RS232, the 512bytes data buffer zone of super large is fit to the big data quantity transmission, built-in house dog guarantees operation reliably and with long-term.

Claims (5)

1. stayed-cable bridge Landscape Lamp, comprise main control module (2) and LED light emitting module (1), it is characterized in that: in the bottom of drag-line (3) cable wire lamp control module (10) is housed, is contained between the LED light emitting module (1) on the every drag-line (3) and is connected to cable wire lamp control module (10) again after the connection successively in order with lead; In main control module (2), cable wire lamp control module (10) and each LED light emitting module (1), solar photovoltaic assembly (4) is housed.

2. stayed-cable bridge Landscape Lamp according to claim 1 is characterized in that: wireless sending module (5) is housed in main control module (2), wireless receiving module (6) is housed in cable wire lamp control module (10).

3. stayed-cable bridge Landscape Lamp according to claim 1 and 2 is characterized in that: controller (11) is arranged in cable wire lamp control module (10), master controller (9) is arranged in main control module (2); Controller (11), master controller (9), wireless receiving module (6) and wireless sending module (5) are connected solar photovoltaic assembly (4) respectively.

4. stayed-cable bridge Landscape Lamp according to claim 1 is characterized in that: LED lamp sheet (7) and deserializer (8) are arranged in LED light emitting module (1), and LED lamp sheet (7), deserializer (8) are connected to solar photovoltaic assembly (4) respectively; LED lamp sheet (7) connects deserializer (8).

5. stayed-cable bridge Landscape Lamp according to claim 3 is characterized in that: master controller (9) is single-chip microcomputer or industrial computer, and decorative pattern flicker control software is housed in master controller (9).

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