CN208424848U - A kind of Landscape Lighting intelligence control system - Google Patents
A kind of Landscape Lighting intelligence control system Download PDFInfo
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- CN208424848U CN208424848U CN201820884121.0U CN201820884121U CN208424848U CN 208424848 U CN208424848 U CN 208424848U CN 201820884121 U CN201820884121 U CN 201820884121U CN 208424848 U CN208424848 U CN 208424848U
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- landscape lighting
- brightness
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- lighting device
- landscape
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Abstract
A kind of Landscape Lighting intelligence control system, comprising: the first landscape lighting device, the first photosensitive device and the first shock sensor of the first landscape positions are set;The second landscape lighting device, the second photosensitive device and the second shock sensor of second landscape positions are set;The first brightness control signal is generated based on the testing result of first photosensitive device and the first shock sensor, the central controller of the second brightness control signal is generated based on the testing result of second photosensitive device and the second shock sensor;The first intednsity circuit of the brightness of first landscape lighting device is controlled based on first brightness control signal;And the second intednsity circuit of the brightness of second landscape lighting device is controlled based on second brightness control signal.The Landscape Lighting intelligence control system for implementing the utility model can automatically adjust the brightness of landscape lighting device when ambient brightness variation or someone are passed through, thus energy saving and promotion landscape and illuminating effect.
Description
Technical field
The utility model relates to lighting technical fields, more specifically to a kind of Landscape Lighting intelligence control system.
Background technique
Landscape Lighting typically refers to existing illumination functions, and has the outdoor lighting work of artistic decoration and function of beautifying the environment concurrently
Journey.By the way that the illuminator of different color and brightness is arranged in different positions, it is combined with building or street design,
While providing illumination, to the enjoyment of audience's beauty.
However, the landscape lighting control system of the prior art, is typically only capable to carry out mechanical switch, the degree of automation is low,
Cannot according to the ambient brightness and pedestrian is adjusted the brightness of illuminator by situation, therefore not only influence landscape
Effect and illuminating effect also will cause waste.
Utility model content
The technical problem to be solved by the present invention is in view of the above drawbacks of the prior art, providing one kind being capable of root
According to the Landscape Lighting intelligence control system of ambient brightness and automatic adjustment illuminator brightness.
The technical scheme adopted by the utility model to solve the technical problem is as follows: constructing a kind of Landscape Lighting intelligent control system
System, comprising: the first landscape lighting device of the first landscape positions is set;First landscape lighting device side is set
First photosensitive device and the first shock sensor;Second landscape lighting device of the second landscape positions is set;It is arranged described
The second photosensitive device and the second shock sensor of second landscape lighting device side;Be based respectively on first photosensitive device and
The testing result of first shock sensor generates the first brightness control signal, is passed based on second photosensitive device and the second vibration
The testing result of sensor generates the central controller of the second brightness control signal;Institute is controlled based on first brightness control signal
State the first intednsity circuit of the brightness of the first landscape lighting device;And institute is controlled based on second brightness control signal
State the second intednsity circuit of the brightness of the second landscape lighting device;Wherein first photosensitive device, first vibration
Sensor, second photosensitive device, second shock sensor are electrically connected with the central controller respectively, and described first
Intednsity circuit is electrically connected with the central controller and first landscape lighting device respectively, the second brightness control
Circuit is electrically connected with the central controller and second landscape lighting device respectively.
In Landscape Lighting intelligence control system described in the utility model, the central controller further comprises:
Brightness comparison circuit, the environment for respectively detecting first photosensitive device and second photosensitive device
Brightness is compared with brightness preset value, and generates first brightness control signal and second brightness based on comparative result
Control signal.
In Landscape Lighting intelligence control system described in the utility model, the central controller further comprises:
Shock value comparison circuit, for respectively detecting first shock sensor and second shock sensor
Shock value be compared with vibration preset value, and generate first brightness control signal and described second based on comparative result
Brightness control signal.
It further comprise solar power supply circuit in Landscape Lighting intelligence control system described in the utility model, institute
Stating solar power supply circuit includes solar panel, voltage adapter and battery, described in the input terminal warp of the battery
Voltage adapter connects the solar panel, and the output end of the battery is connected with mains supply through power change-over switch
First landscape lighting device, second landscape lighting device and the central controller.
In Landscape Lighting intelligence control system described in the utility model, the central controller further comprises being used for
The testing result for being based respectively on first shock sensor is generated the first color control signals and is passed based on second vibration
The testing result of sensor generates the vibration color circuit of the second color control signals.
It further comprise based on the first color control in Landscape Lighting intelligence control system described in the utility model
Signal processed controls the first Color control circuit of the color of first landscape lighting device, and is based on second Color control
Signal controls the second Color control circuit of the color of second landscape lighting device;The first Color control circuit and institute
It states the second Color control circuit 620 and is electrically connected the vibration color circuit.
In Landscape Lighting intelligence control system described in the utility model, first landscape lighting device and described
Two landscape lighting devices respectively include at least one LED light.
In Landscape Lighting intelligence control system described in the utility model, first intednsity circuit and described
Two intednsity circuits are respectively the LED luminance driving circuit for including LED drive chip HV9931.
In Landscape Lighting intelligence control system described in the utility model, the first Color control circuit and described
Two Color control circuits are respectively the LED color driving circuit for including LED drive chip LPD6803.
The Landscape Lighting intelligence control system for implementing the utility model detects ambient brightness variation or shake in photosensitive device
When dynamic sensor detects that someone passes through, the brightness of landscape lighting device can be automatically adjusted, thus energy saving and promoted
Landscape effect and illuminating effect.Further, when shock sensor detects that someone passes through, adjustable color change, into
And different landscape effects is supplied to pedestrian, and then promote pedestrian's experience.Still further, by the way that solar powered electricity is arranged
Road can efficiently use solar energy resources, further save the energy.
Detailed description of the invention
Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing:
Fig. 1 is the functional block diagram of the first embodiment of the Landscape Lighting intelligence control system of the utility model;
Fig. 2 is the functional block diagram of the second embodiment of the Landscape Lighting intelligence control system of the utility model.
Specific embodiment
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain
The utility model is not used to limit the utility model.
Fig. 1 is the functional block diagram of the first embodiment of the Landscape Lighting intelligence control system of the utility model.Such as Fig. 1 institute
Show, the Landscape Lighting intelligence control system of the utility model includes: the first landscape lighting device that the first landscape positions are arranged in
310;The first photosensitive device 410 and the first shock sensor 510 of first landscape lighting device, 310 side are set;If
Set the second landscape lighting device 320 in the second landscape positions;It is arranged in the second of 320 side of the second landscape lighting device
Photosensitive device 420 and the second shock sensor 520;It is based respectively on first photosensitive device 410 and the first shock sensor 510
Testing result generate the first brightness control signal, the inspection based on second photosensitive device 420 and the second shock sensor 520
Survey the central controller 100 that result generates the second brightness control signal;Based on first brightness control signal control described the
First intednsity circuit 210 of the brightness of one landscape lighting device 310;And it is controlled based on second brightness control signal
Second intednsity circuit 220 of the brightness of second landscape lighting device 320.First photosensitive device 410, described
One shock sensor 510, second photosensitive device 420, second shock sensor 520 respectively with the central controller
100 electrical connections, first intednsity circuit 210 are filled with the central controller 100 and first Landscape Lighting respectively
Set 310 electrical connections, second intednsity circuit 220 respectively with the central controller 100 and second Landscape Lighting
Device 320 is electrically connected.
In the preferred embodiment, first landscape lighting device 310 and second landscape lighting device 320 can be with
At least one LED light is respectively included, different landscape positions, such as first landscape lighting device 310 are separately positioned on
It can be set in water flow landscape side, second landscape lighting device 320 can be set in garden landscape side, and it can be with
Respectively include one or more LED light.First photosensitive device 410 and the first shock sensor 510 can be set in institute
State near the first landscape lighting device 310, such as its either above or below, be preferably hidden in landscape, or with landscape melt for
One.Second photosensitive device 420 and the second shock sensor 520 are similarly set.First photosensitive device 410 and first
The photosensitive number that shock sensor 510 and second photosensitive device 420 and the second shock sensor 520 will test respectively
Central controller 100 is transmitted to according to vibration data.
The central controller 100 can be any of microprocessor, microcontroller or computing chip, wherein
Store brightness preset value and vibration preset value.In a preferred embodiment of the utility model, the central controller 100 can
The ambient brightness that first photosensitive device 410 detects is compared with brightness preset value, if the ambient brightness is lower than
The brightness preset value, it was demonstrated that ambient brightness is lower, needs to improve the brightness of the first landscape lighting device 310, at this moment, the center
Controller 100 will generate the first control raised first brightness control signal of 310 brightness of landscape lighting device, and be passed
Give the first intednsity circuit 210.First intednsity circuit 210 is based on described in first brightness control signal raising
The brightness of first control landscape lighting device 310.When the ambient brightness is higher than the brightness preset value, it was demonstrated that ambient brightness is higher,
At this moment the brightness of the first control landscape lighting device 310 will can be maintained.Certainly other in the utility model are preferred real
It applies in example, the central controller 100 can also control first brightness when the ambient brightness is higher than the brightness preset value
Control circuit 210 reduces the brightness of the first control landscape lighting device 310.
In the preferred embodiment, the central controller 100 can detect first shock sensor 510
Shock value is compared with vibration preset value, when the shock value is higher than the vibration preset value, it was demonstrated that someone or vehicle pass through, and need
The brightness of the first landscape lighting device 310 is improved, at this moment, the central controller 100 will generate the first control landscape
Raised first brightness control signal of 310 brightness of lighting device, and it is transferred to the first intednsity circuit 210.Described
One intednsity circuit 210 improves the brightness of the first control landscape lighting device 310 based on first brightness control signal.
When the shock value is lower than the vibration preset value, it was demonstrated that nobody or vehicle pass through, and at this moment can will maintain first control
The brightness of landscape lighting device 310.Certainly in other preferred embodiments of the utility model, the central controller 100 is also
The first control scape can be being reduced when the shock value controls first intednsity circuit 210 lower than the vibration preset value
See the brightness of lighting device 310.
In the present embodiment, the central controller 100, second photosensitive device 420, second Landscape Lighting dress
It is similar to set the 320, second intednsity circuit 220, the working principle of second shock sensor 520, is just not repeated herein
?.
In the preferred embodiment of the utility model, first landscape lighting device 310 and second Landscape Lighting
Device 320 respectively includes at least one LED light, first intednsity circuit 210 and second intednsity circuit 220
It respectively include the LED luminance driving circuit of LED drive chip HV9931.
The Landscape Lighting intelligence control system for implementing the utility model detects ambient brightness variation or shake in photosensitive device
When dynamic sensor detects that someone passes through, the brightness of landscape lighting device can be automatically adjusted, thus energy saving and promoted
Landscape effect and illuminating effect.
Fig. 2 is the functional block diagram of the second embodiment of the Landscape Lighting intelligence control system of the utility model.Such as Fig. 2 institute
Show, the Landscape Lighting intelligence control system of the utility model includes: the first landscape lighting device that the first landscape positions are arranged in
310;The first photosensitive device 410 and the first shock sensor 510 of first landscape lighting device, 310 side are set;If
Set the second landscape lighting device 320 in the second landscape positions;It is arranged in the second of 320 side of the second landscape lighting device
Photosensitive device 420 and the second shock sensor 520;It is based respectively on first photosensitive device 410 and the first shock sensor 510
Testing result generate the first brightness control signal, the inspection based on second photosensitive device 420 and the second shock sensor 520
Survey the central controller 100 that result generates the second brightness control signal;Based on first brightness control signal control described the
First intednsity circuit 210 of the brightness of one landscape lighting device 310;And it is controlled based on second brightness control signal
Second intednsity circuit 220 of the brightness of second landscape lighting device 320.First photosensitive device 410, described
One shock sensor 510, second photosensitive device 420, second shock sensor 520 respectively with the central controller
100 electrical connections, first intednsity circuit 210 are filled with the central controller 100 and first Landscape Lighting respectively
Set 310 electrical connections, second intednsity circuit 220 respectively with the central controller 100 and second Landscape Lighting
Device 320 is electrically connected.
Further as shown in Fig. 2, the Landscape Lighting intelligence control system of the utility model further comprises solar powered
Circuit 700, the first Color control circuit 610 and the second Color control circuit 620.The central controller 100 further comprises:
Brightness comparison circuit 110, shock value comparison circuit 120 and vibration color circuit 130.
As shown in Fig. 2, the solar power supply circuit 700 includes solar panel 710, voltage adapter 720 and stores
Battery 730.The input terminal of the battery 730 connects the solar panel 710 through the voltage adapter 720, thus
It is charged by the solar panel 710.The output end and mains supply 800 of the battery 730 switch through power supply
Switch connects first landscape lighting device 310, second landscape lighting device 320 and the central controller 100, from
It and is that it is powered.
Further as shown in Fig. 2, the brightness comparison circuit 110 is electrically connected first photosensitive device 410 and described the
Two photosensitive devices 420, to receive the ring that first photosensitive device 410 and second photosensitive device 420 detect respectively
Then it is compared by border brightness with brightness preset value respectively.If the environment that first photosensitive device 410 detects is bright
Degree is lower than the brightness preset value, it was demonstrated that ambient brightness is lower, needs to improve the brightness of the first landscape lighting device 310, at this moment, institute
The first control raised first brightness control signal of 310 brightness of landscape lighting device will be generated by stating brightness comparison circuit 110,
And it is transferred to the first intednsity circuit 210.First intednsity circuit 210 is based on first brightness control signal
Improve the brightness of the first control landscape lighting device 310.When the ambient brightness is higher than the brightness preset value, it was demonstrated that environment is bright
Degree is higher, at this moment can will maintain the brightness of the first control landscape lighting device 310.Certainly the utility model other
In preferred embodiment, the brightness comparison circuit 110 can also be higher than described in brightness preset value control when the ambient brightness
First intednsity circuit 210 reduces the brightness of the first control landscape lighting device 310.Similarly, if second sense
The ambient brightness that electro-optical device 420 detects is lower than the brightness preset value, it was demonstrated that ambient brightness is lower, needs to improve the second landscape photograph
The brightness of bright device 320, at this moment, the brightness comparison circuit 110 will generate the second control 320 brightness of landscape lighting device
Raised second brightness control signal, and it is transferred to the second intednsity circuit 220.Second intednsity circuit
220 improve the brightness of the second control landscape lighting device 320 based on second brightness control signal.When ambient brightness height
In the brightness preset value, it was demonstrated that ambient brightness is higher, at this moment can will maintain the bright of the second control landscape lighting device 320
Degree.Certainly in other preferred embodiments of the utility model, the brightness comparison circuit 110 can also work as the ambient brightness
Controlling second intednsity circuit 220 higher than the brightness preset value reduces the second control landscape lighting device 320
Brightness.In the preferred embodiment of the utility model, the brightness comparison circuit 110 can be the comparator electricity of any construction
Road, it can export high level or low level as required based on comparative result.
Further as shown in Fig. 2, the shock value comparison circuit 120 is electrically connected first shock sensor 510 and institute
The second shock sensor 520 is stated, to receive first shock sensor 510 and second shock sensor 520 respectively
Then it is compared by the shock value detected with vibration preset value respectively, and it is bright to generate described first based on comparative result
Degree control signal and second brightness control signal.For example, when the shock value that first shock sensor 510 detects is high
In the vibration preset value, it was demonstrated that someone or vehicle pass through, and need to improve the brightness of the first landscape lighting device 310, at this moment, institute
The raised first brightness control letter of the first control 310 brightness of landscape lighting device will be generated by stating shock value comparison circuit 120
Number, and it is transferred to the first intednsity circuit 210.First intednsity circuit 210 is controlled based on first brightness
Signal improves the brightness of the first control landscape lighting device 310.When the shock value is lower than the vibration preset value, it was demonstrated that do not have
People or vehicle pass through, and at this moment can will maintain the brightness of the first control landscape lighting device 310.Certainly practical new at this
In other preferred embodiments of type, the shock value comparison circuit 120 can also be lower than the vibration preset value when the shock value
Controlling first intednsity circuit 210 reduces the brightness of the first control landscape lighting device 310.Similarly, described
The shock value that two shock sensors 520 detect is higher than the vibration preset value, it was demonstrated that someone or vehicle pass through, and need to improve the
The brightness of two landscape lighting devices 320, at this moment, the shock value comparison circuit 120 will generate the second control Landscape Lighting
Raised second brightness control signal of 320 brightness of device, and it is transferred to the second intednsity circuit 220.Described second is bright
Degree control circuit 220 improves the brightness of the second control landscape lighting device 320 based on second brightness control signal.When this
Shock value is lower than the vibration preset value, it was demonstrated that nobody or vehicle pass through, and at this moment can will maintain the second control landscape
The brightness of lighting device 320.Certainly in other preferred embodiments of the utility model, the shock value comparison circuit 120 is also
The second control scape can be being reduced when the shock value controls second intednsity circuit 220 lower than the vibration preset value
See the brightness of lighting device 320.In the preferred embodiment of the utility model, the shock value comparison circuit 120, which can be, appoints
The comparator circuit of what construction, can be the comparator circuit of any construction, it can defeated as required based on comparative result
High level or low level out.
Further as shown in Fig. 2, the vibration color circuit 130 is electrically connected first shock sensor 510 and described
Second shock sensor 520, to receive first shock sensor 510 and second shock sensor 520 inspection respectively
Then it is compared respectively with vibration preset value, and generates first color based on comparative result by the shock value measured
Control signal and the second color control signals.First color control signals and the second color control signals can be random life
At that is, color changes at random.The first Color control circuit 610 and the second Color control circuit 620 are electrically connected described
Color circuit 130 is shaken to receive first color control signals and the second color control signals respectively, and is based respectively on the
One color control signals and the second color control signals control first landscape lighting device 310 and second Landscape Lighting
The color of device 320.In the preferred embodiment of the utility model, the vibration color circuit 130 can be any construction
Comparator circuit can be the comparator circuit of any construction, it can export high level as required based on comparative result
Or low level.
In the preferred embodiment of the utility model, first landscape lighting device 310 and second Landscape Lighting
Device 320 respectively includes at least one LED light, first intednsity circuit 210 and second intednsity circuit 220
It respectively include the LED luminance driving circuit of LED drive chip HV9931.The first Color control circuit 610 and described
Two Color control circuits 620 are respectively the LED color driving circuit including LED drive chip LPD6803.
The Landscape Lighting intelligence control system for implementing the utility model detects ambient brightness variation or shake in photosensitive device
When dynamic sensor detects that someone passes through, the brightness of landscape lighting device can be automatically adjusted, thus energy saving and promoted
Landscape effect and illuminating effect.Further, when shock sensor detects that someone passes through, adjustable color change, into
And different landscape effects is supplied to pedestrian, and then promote pedestrian's experience.Still further, by the way that solar powered electricity is arranged
Road can efficiently use solar energy resources, further save the energy.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model
Protection scope within.
Claims (9)
1. a kind of Landscape Lighting intelligence control system characterized by comprising the first landscape that the first landscape positions are arranged in shines
Bright device;The first photosensitive device and the first shock sensor of first landscape lighting device side are set;Setting is the
Second landscape lighting device of two landscape positions;The second photosensitive device and of second landscape lighting device side is set
Two shock sensors;The testing result for being based respectively on first photosensitive device and the first shock sensor generates the first brightness control
Signal processed is generated in the second brightness control signal based on the testing result of second photosensitive device and the second shock sensor
Entreat controller;The first brightness control of the brightness of first landscape lighting device is controlled based on first brightness control signal
Circuit;And the second brightness control of the brightness of second landscape lighting device is controlled based on second brightness control signal
Circuit;Wherein first photosensitive device, first shock sensor, second photosensitive device, second vibration pass
Sensor is electrically connected with the central controller respectively, first intednsity circuit respectively with the central controller and described
First landscape lighting device electrical connection, second intednsity circuit respectively with the central controller and second landscape
Lighting device electrical connection.
2. Landscape Lighting intelligence control system according to claim 1, which is characterized in that the central controller is further
Include:
Brightness comparison circuit, the ambient brightness for respectively detecting first photosensitive device and second photosensitive device
It is compared with brightness preset value, and generates first brightness control signal and second brightness control based on comparative result
Signal.
3. Landscape Lighting intelligence control system according to claim 1 or 2, which is characterized in that the central controller into
One step includes:
Shock value comparison circuit, the shake for respectively detecting first shock sensor and second shock sensor
Dynamic value is compared with vibration preset value, and generates first brightness control signal and second brightness based on comparative result
Control signal.
4. Landscape Lighting intelligence control system according to claim 3, which is characterized in that further comprise solar powered
Circuit, the solar power supply circuit include solar panel, voltage adapter and battery, the input terminal of the battery
The solar panel is connected through the voltage adapter, the output end and mains supply of the battery are opened through power supply switching
Connection connects first landscape lighting device, second landscape lighting device and the central controller.
5. Landscape Lighting intelligence control system according to claim 3, which is characterized in that the central controller is further
The first color control signals are generated including the testing result for being based respectively on first shock sensor and based on described the
The testing result of two shock sensors generates the vibration color circuit of the second color control signals.
6. Landscape Lighting intelligence control system according to claim 5, which is characterized in that further comprise based on described the
One color control signals control the first Color control circuit of the color of first landscape lighting device, and are based on described second
Color control signals control the second Color control circuit of the color of second landscape lighting device;First Color control
Circuit and the second Color control circuit 620 are electrically connected the vibration color circuit.
7. Landscape Lighting intelligence control system according to claim 5, which is characterized in that first landscape lighting device
At least one LED light is respectively included with second landscape lighting device.
8. Landscape Lighting intelligence control system according to claim 7, which is characterized in that first intednsity circuit
It is respectively the LED luminance driving circuit for including LED drive chip HV9931 with second intednsity circuit.
9. Landscape Lighting intelligence control system according to claim 6, which is characterized in that the first Color control circuit
It is respectively the LED color driving circuit for including LED drive chip LPD6803 with the second Color control circuit.
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CN201820884121.0U CN208424848U (en) | 2018-06-06 | 2018-06-06 | A kind of Landscape Lighting intelligence control system |
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CN201820884121.0U CN208424848U (en) | 2018-06-06 | 2018-06-06 | A kind of Landscape Lighting intelligence control system |
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CN201820884121.0U Expired - Fee Related CN208424848U (en) | 2018-06-06 | 2018-06-06 | A kind of Landscape Lighting intelligence control system |
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2018
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