CN104053269A - Illumination control method and system - Google Patents

Abstract

The invention provides an illumination control method. The method comprises the following steps that: whether one or more moving devices fall into an effective sensing range of a first bluetooth unit of an illumination device is detected; if so, an illumination unit controlling the illumination device is switched from an off state to an on state; whether all moving devices are away from the effective sensing range of the first bluetooth unit of the illumination device is determined; if so, the illumination unit controlling the illumination device is switched from an state to an off state. In addition, the invention also provides an illumination control system. According to the invention, the turning on or off of the illumination device can be realized by using the bluetooth unit of the illumination device.

Description

Illumination control method and system

Technical field

The present invention relates to a kind of illumination device control method and system, especially open and the method and system of closing about a kind of lighting device of controlling.

Background technology

In order to ensure that passerby is in the walking along the street safety at night, street lamp is installed at large streets and lanes in actual life.Based on considering of energy savings, street lamp all uses the electric light of induction type conventionally, and the electric light of described induction type comprises the induction modes such as infrared induction, acoustic control induction and light-operated induction.But while stating in the use the electric light of induction type, cost is higher, and the uncontrollability of environment easily causes influence error.Therefore, need to find a kind of cost low, be difficult for illumination control method affected by environment and system.

Summary of the invention

In view of above content, be necessary to provide a kind of illumination control method and system, can realize opening and closing of lighting device by the bluetooth unit in lighting device.

A kind of illumination control method, the method comprising the steps of: (a) whether detecting has one or more mobile devices to fall within the scope of the actual induction of the first bluetooth unit of lighting device; (b) in the time having one or more mobile devices to fall within the scope of the actual induction of the first bluetooth unit of lighting device, the lighting unit of controlling lighting device switches to opening by closed condition; (c) judge whether that all mobile devices have all left within the scope of the actual induction of the first bluetooth unit of lighting device; And (d) in the time that all mobile devices have all left within the scope of the actual induction of the first bluetooth unit of lighting device, the lighting unit of controlling lighting device switches to closed condition by opening.

A kind of Lighting Control Assembly, is applied in lighting device, and this system comprises: detecting module, for detecting within the scope of the actual induction of the first bluetooth unit that whether has one or more mobile devices to fall into or leave lighting device; Opening module, in the time having one or more mobile devices to fall within the scope of the actual induction of the first bluetooth unit of lighting device, the lighting unit of controlling lighting device switches to opening by closed condition; And closing module, when all left within the scope of the actual induction of the first bluetooth unit of lighting device when all mobile devices, the lighting unit of controlling lighting device switches to closed condition by opening.

Compared to prior art, illumination control method provided by the invention and system, respond within the scope of the actual induction whether passerby fall into bluetooth unit by the bluetooth unit in lighting device, and in the time that passerby falls within the scope of the actual induction of bluetooth unit, control lighting device is opened, and, controls lighting device and close during away from the actual induction scope of bluetooth unit passerby, carry out energy savings with this, and it is low and be difficult for illumination control mode affected by environment to realize cost.

Brief description of the drawings

Fig. 1 is the hardware structure figure of Lighting Control Assembly preferred embodiment of the present invention.

Fig. 2 is the operation process chart of illumination control method preferred embodiment of the present invention.

Main element symbol description

Lighting device	100
		Lighting Control Assembly	10
Detecting module	11
		Opening module	12
Closing module	13
		Memory cell	20
The first bluetooth unit	30
		Lighting unit	40
Bluetooth communication protocol	200
		Mobile device	300
The second bluetooth unit	50

Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

Embodiment

Consulting shown in Fig. 1, is the hardware structure figure of Lighting Control Assembly preferred embodiment of the present invention.This Lighting Control Assembly 10 runs in lighting device 100, and this lighting device 100 can be the equipment for throwing light on such as street lamp, electric light.This lighting device 100 is by only illustrating two in Bluetooth communication protocol 200 and one or more mobile device 300(figure) communicate.This mobile device 300 can be notebook computer, mobile phone, panel computer, palmtop PC (Personal Digital Assistant, PDA) etc.

Described lighting device 100 also comprises parts, as memory cell 20, the first bluetooth unit 30 and lighting unit 40.The parts 10-40 of lighting device 100 communicates by system bus.Described memory cell 20 is for storing the data of lighting device 100.Described the first bluetooth unit 30 communicates by Bluetooth communication protocol 200 and mobile device 300.Light fixture, the bulb of electric light etc. that described lighting unit 40 can be street lamp are for luminous equipment, and this lighting unit 40 comprises opening and closed condition.

Described mobile device 300 comprises the second bluetooth unit 50, and this second bluetooth unit 50 communicates by Bluetooth communication protocol 200 and the first bluetooth unit 30 in lighting device 100.

Described Lighting Control Assembly 10 is in the time having one or more mobile devices 300 to be positioned at the actual induction scope of the first bluetooth unit 30 of lighting device 100, controlling the lighting unit 40 of lighting device 100 opens, and in the time not having mobile device 300 to be positioned at the actual induction scope of the first bluetooth unit 30 of lighting device 100, control the lighting unit 40 of lighting device 100 and close.

Described Lighting Control Assembly 10 comprises detecting module 11, opening module 12 and closing module 13.Module 11-13 comprises computerization program command.

Detecting module 11 is for detecting within the scope of the actual induction of the first bluetooth unit 30 that whether has one or more mobile devices 300 to fall into lighting device 100.This actual induction scope determines by the effective propagation path of the first bluetooth unit 30, and for example, described actual induction scope is for taking lighting device 100 present positions as initial point, the circle that effective propagation path forms for radius.The effective propagation path of supposing the first bluetooth unit 30 is 10 meters, and the actual induction scope of the first bluetooth unit 30 is that radius is the circle of 10 meters taking lighting device 100 as initial point.

Prerequisite of the present invention be the first bluetooth unit 30 of lighting device 100 with the second bluetooth unit 50 of mobile device 300 all in open mode.Detecting module 11 judges one or more the second bluetooth units 50 within the scope of the actual induction of the first bluetooth unit 30, whether to be detected.When one or more the second bluetooth unit 50 detected within the scope of the actual induction of the first bluetooth unit 30 time, detecting module 11 is determined with within the scope of the actual induction of the first bluetooth unit 30 that one or more mobile devices 300 fall into lighting device 100.When the second bluetooth unit 50 do not detected within the scope of the actual induction of the first bluetooth unit 30 time, detecting module 11 judges that all mobile devices 300 have all left within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100.

Opening module 12 is in the time having one or more mobile devices 300 to fall within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100, and the lighting unit 40 of controlling lighting device 100 switches to opening by closed condition.It should be noted that, the present invention supposes that the initial condition of the lighting unit 40 of lighting device 100 is closed condition.

Detecting module 11 is also for judging whether all mobile devices 300 have all left within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100.

Closing module 13 is when all having left within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100 when all mobile devices 300, the lighting unit 40 of controlling lighting device 100 switches to closed condition by opening.

In the present invention, the one or more lighting devices 100 of each the first bluetooth unit control.For example, in this preferred embodiment, in each lighting device 100, include first bluetooth unit 30, lighting device 100 of each the first bluetooth unit control.And in other embodiments, can share first bluetooth unit 30 by multiple lighting devices 100, now, this first bluetooth unit 30 is controlled the multiple lighting devices 100 that share this first bluetooth unit 30 and is opened or closed simultaneously, when the plurality of lighting device 100, opens or closes and can realize by the connection that changes the plurality of lighting device 100.

Consulting shown in Fig. 2, is the flow chart of illumination control method preferred embodiment of the present invention.

Step S10, detecting module 11 is detected within the scope of the actual induction of the first bluetooth unit 30 that whether has one or more mobile devices 300 to fall into lighting device 100.This actual induction scope determines by the effective propagation path of the first bluetooth unit 30, and for example, described actual induction scope is for taking lighting device 100 present positions as initial point, the circle that effective propagation path forms for radius.In the time having one or more mobile devices 300 to fall within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100, perform step S20; In the time not having mobile device 300 to fall within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100, return to step S10 and continue detecting.

Prerequisite of the present invention be the first bluetooth unit 30 of lighting device 100 with the second bluetooth unit 50 of mobile device 300 all in open mode.Detecting module 11 judges one or more the second bluetooth units 50 within the scope of the actual induction of the first bluetooth unit 30, whether to be detected.When one or more the second bluetooth unit 50 detected within the scope of the actual induction of the first bluetooth unit 30 time, detecting module 11 is determined with within the scope of the actual induction of the first bluetooth unit 30 that one or more mobile devices 300 fall into lighting device 100.When the second bluetooth unit 50 do not detected within the scope of the actual induction of the first bluetooth unit 30 time, detecting module 11 judges that all mobile devices 300 have all left within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100.

Step S20, the lighting unit 40 that opening module 12 is controlled lighting device 100 switches to opening by closed condition.The present invention supposes that the initial condition of the lighting unit 40 of lighting device 100 is closed condition.

Step S30, detecting module 11 judges whether all mobile devices 300 have all left within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100.In the time that all mobile devices 300 have all left within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100, perform step S40; In the time having one or more mobile devices 300 to fall within the scope of the actual induction of the first bluetooth unit 30 of lighting device 100, return to step S30 and continue detecting.

Step S40, the lighting unit 40 that closing module 13 is controlled lighting device 100 switches to closed condition by opening.

It should be noted last that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to above preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement technical scheme of the present invention, and not depart from the spirit and scope of technical solution of the present invention.

Claims (8)

1. an illumination control method, is characterized in that, the method comprises:

The first detecting step: whether detecting has one or more mobile devices to fall within the scope of the actual induction of the first bluetooth unit of lighting device;

Open step: in the time having one or more mobile devices to fall within the scope of the actual induction of the first bluetooth unit of lighting device, the lighting unit of controlling lighting device switches to opening by closed condition;

The second detecting step: judge whether that all mobile devices have all left within the scope of the actual induction of the first bluetooth unit of lighting device; And

Close step: in the time that all mobile devices have all left within the scope of the actual induction of the first bluetooth unit of lighting device, the lighting unit of controlling lighting device switches to closed condition by opening.

2. illumination control method as claimed in claim 1, is characterized in that, described actual induction scope is taking lighting device present position as initial point, the circle that effective propagation path forms for radius.

3. illumination control method as claimed in claim 1, is characterized in that, detects within the scope of the actual induction of the first bluetooth unit that whether has one or more mobile devices to fall into or leave lighting device by following steps:

When the second bluetooth unit of one or more mobile devices detected within the scope of the actual induction of the first bluetooth unit time, be determined with within the scope of the actual induction of the first bluetooth unit that one or more mobile devices fall into lighting device;

When the second bluetooth unit of mobile device do not detected within the scope of the actual induction of the first bluetooth unit time, judge that all mobile devices have all left within the scope of the actual induction of the first bluetooth unit of lighting device.

4. illumination control method as claimed in claim 1, is characterized in that, the one or more lighting devices of described the first bluetooth unit control.

5. a Lighting Control Assembly, is characterized in that, this system comprises:

Detecting module, for detecting within the scope of the actual induction of the first bluetooth unit that whether has one or more mobile devices to fall into or leave lighting device;

Opening module, in the time having one or more mobile devices to fall within the scope of the actual induction of the first bluetooth unit of lighting device, the lighting unit of controlling lighting device switches to opening by closed condition; And

Closing module, when all left within the scope of the actual induction of the first bluetooth unit of lighting device when all mobile devices, the lighting unit of controlling lighting device switches to closed condition by opening.

6. Lighting Control Assembly as claimed in claim 5, is characterized in that, described actual induction scope is taking lighting device present position as initial point, the circle that effective propagation path forms for radius.

7. Lighting Control Assembly as claimed in claim 5, is characterized in that, described detecting module is detected by following steps within the scope of the actual induction of the first bluetooth unit that whether has one or more mobile devices to fall into or leave lighting device:

When the second bluetooth unit of one or more mobile devices detected within the scope of the actual induction of the first bluetooth unit time, be determined with within the scope of the actual induction of the first bluetooth unit that one or more mobile devices fall into lighting device;

When the second bluetooth unit of mobile device do not detected within the scope of the actual induction of the first bluetooth unit time, judge that all mobile devices have all left within the scope of the actual induction of the first bluetooth unit of lighting device.

8. Lighting Control Assembly as claimed in claim 5, is characterized in that, the one or more lighting devices of described the first bluetooth unit control.