CN113362732A - Efficient intelligent scene lighting energy-saving controller and control method - Google Patents

Abstract

The invention relates to an efficient intelligent scene illumination energy-saving controller and a control method, wherein the controller comprises an illumination driving adjusting circuit, an information acquisition circuit, a control circuit and a communication circuit, wherein the illumination driving adjusting circuit is connected with the control circuit and is used for integral driving control of the whole scene illumination and split driving control of each partition block under the control signal sent by the control circuit; the information acquisition circuit is connected with the control circuit and used for acquiring scene parameters, illumination content information, pedestrian flow/environment identification information and effect feedback information of an illumination field and sending the scene parameters, the illumination content information, the pedestrian flow/environment identification information and the effect feedback information to the control circuit, and the control circuit generates a control signal according to the received information; the control circuit is connected with a communication circuit. According to the invention, the requirement of precise lighting control can be realized according to the scene difference of different advertising lamp boxes, the lighting control effect under a special scene is improved, and the energy efficiency of the whole system is reduced.

Description

Efficient intelligent scene lighting energy-saving controller and control method

Technical Field

The invention relates to the technical field of lighting control systems, in particular to an efficient and intelligent scene lighting energy-saving controller and a control method.

Background

With the development of various lamp box and box advertisement industries, more and more backlight scene lighting lamps are widely applied in the advertisement industry, as an important component of lamp box advertisements, the advertisement effect can be enhanced by adopting backlight scene lighting, the advertisement playing time and the audience surface can be prolonged, and the like, especially with the application occasions of spaces such as urban outdoor and subway and the like, the backlight scene lighting lamps become important scenes for the application of the advertisement lamp boxes, so that the development of a lighting device of the advertisement lamp box also becomes one of important parts of the design of a lighting system, and the lighting effect also influences the benefit of the whole advertisement. However, most of the existing advertisement lamp box scene lighting devices usually adopt a simple normally-bright control mode, and also usually adopt uniform background lighting aiming at different advertisement contents, which not only affects the overall advertisement effect and cannot give consideration to the difference of various advertisements and the visual perception of audiences, but also brings about the problems of high energy consumption and energy saving due to the normally-bright uniform scene lighting.

Aiming at the problems, the invention provides the efficient and intelligent scene illumination energy-saving controller and the control method, which can optimize and improve the advertisement illumination effect while realizing scene efficient energy saving of the advertisement lamp box, and have important engineering value and practical significance.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provide an efficient and intelligent scene lighting energy-saving controller and a control method.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

an efficient intelligent scene lighting energy-saving controller comprises a lighting driving adjusting circuit, an information acquisition circuit, a control circuit and a communication circuit, wherein,

the lighting driving adjusting circuit is connected to a lamp circuit of a scene lighting field, connected with the control circuit and used for controlling the integral driving of the whole scene lighting and the split driving of each partition block under the control signal sent by the control circuit;

the information acquisition circuit is arranged on a scene illumination field, is connected with the control circuit, is used for acquiring scene parameters, illumination content information, pedestrian flow/environment identification information and effect feedback information of the illumination field and sending the scene parameters, the illumination content information, the pedestrian flow/environment identification information and the effect feedback information to the control circuit, and the control circuit generates a control signal according to the received information;

the control circuit is connected with a communication circuit for data exchange, man-machine interface connection and information interconnection.

Furthermore, the lighting driving adjusting circuit is composed of an integral driving and a split driving discrete adjusting circuit, the integral driving is used for uniformly driving the whole scene lighting to perform uniform background lighting, and the split driving is used for independently driving and adjusting each partition block according to different scenes, so that an optimized difference precise control effect is achieved.

Preferably, the lighting driving adjusting circuit adopts a special LED lighting circuit controlled by PWM digital mode.

Preferably, the control circuit adopts a MSP430FR6045 control chip as a core circuit.

An efficient intelligent scene lighting energy-saving control method comprises the following steps:

step 1) the control circuit reads scene parameters of background illumination acquired by the information acquisition circuit, wherein the scene parameters comprise:

the read scene parameters S _ c consist of four different parameters, namely outdoor O _ d, indoor O _ d, underground U _ d and specific S _ d;

step 2) the control circuit reads the illumination content information parameters collected by the information collection circuit, wherein the illumination content information parameters comprise:

the read lighting content information parameter I _ C consists of four different parameters, namely constant brightness C _ h, time control T _ h, light control L _ h and intelligent control I _ h;

step 3), the control circuit reads the pedestrian flow/environment identification information, and dynamically adjusts and controls the influence factor F (p) in real time according to the conditions of the pedestrian flow and the environment data, wherein the influence factor F (p) specifically comprises the following steps:

wherein k is₁、k₂、k₃Respectively, people flow, weather and time adjustment coefficients, P is the number of people flow changes, w is the number of changes in the weight of the weather factor, t is the time change factor, P_setSetting a people flow variation threshold;

step 4) carrying out intelligent control decision and control signal calculation according to the judgment results of the steps 1) to 3), specifically:

a. if the lighting content information parameter I _ C is constant brightness C _ h, F (p) ≠ 0, the overall drive control is adopted, and the overall PWM light intensity is adjusted according to the function parameter of F (p), otherwise, if F (p) =0, the overall drive control is closed;

b. if the lighting content information parameter I _ c is the time control T _ h, controlling the integral drive according to the set working time;

c. if the lighting content information parameter I _ c is the light control L _ h, controlling the whole drive according to the set illumination data and the illumination of the read environment parameter;

d. if the lighting content information parameter I _ c is intelligently controlled I _ h, intelligently controlling the scene parameter S _ c read in step 1), performing split driving control according to f (p), and accurately controlling each independent split circuit to realize the optimal lighting effect, wherein the specific gravity of each coefficient is adjusted according to the situation of the scene parameter S _ c in step 1), specifically:

；

and 5) the control circuit outputs corresponding control signals to realize the control of the integrally driven circuit and the separately driven circuit, and performs corresponding correction and adjustment according to effect feedback information acquired by the information acquisition circuit.

The invention has the beneficial effects that:

the controller composed of the integrally and separately driven dual control and adjustment power supply is adopted, parameters such as scene, flow of people, environment, time and the like are comprehensively considered, a corresponding control function is provided, accurate, efficient and intelligent control over background illumination application is achieved, the effect of background illumination of an advertising lamp box and the like is improved, and energy-saving application of illumination is achieved.

Drawings

FIG. 1 is a block diagram of the controller of the present invention;

FIG. 2a is a block diagram of the lighting driving adjustment circuit of the controller according to the present invention;

FIG. 2b is a functional block diagram of the control circuit of the controller of the present invention;

FIG. 2c is a functional block diagram of an information acquisition circuit of the controller of the present invention;

FIG. 3 is a flow chart of a control method of the controller according to the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1, an efficient and intelligent scene lighting energy-saving controller comprises a lighting driving adjusting circuit, an information collecting circuit, a control circuit and a communication circuit, wherein,

the lighting driving adjusting circuit is connected to a lamp circuit of a scene lighting field, connected with the control circuit and used for controlling the integral driving of the whole scene lighting and the split driving of each partition block under the control signal sent by the control circuit;

as shown in fig. 2c, the information collecting circuit is disposed in the scene lighting site and connected to the control circuit, and is configured to collect scene parameters, lighting content information, traffic/environment identification information, and effect feedback information of the lighting site, and send the collected information to the control circuit, and the control circuit generates a control signal according to the received information;

the control circuit is connected with a communication circuit for data exchange, man-machine interface connection and information interconnection.

As shown in fig. 2a, the lighting driving adjustment circuit is composed of an integral driving and a split driving discrete adjustment circuit, the integral driving is used for uniformly driving the lighting of the whole scene to perform uniform background lighting, and the split driving is used for independently driving and adjusting each partition according to different scenes, so as to achieve an optimized difference precision control effect.

The lighting driving adjusting circuit adopts a special LED lighting circuit controlled by PWM digital mode.

As shown in fig. 2b, the control circuit adopts a MSP430FR6045 control chip as a core circuit, so as to realize algorithm control on the whole controller, receive information data of the information acquisition circuit, output a control signal after algorithm processing to control the lighting driving adjustment circuit to work, and process communication data on the communication circuit.

As shown in fig. 3, a high-efficiency intelligent scene lighting energy-saving control method includes the following steps:

step 1) the control circuit reads scene parameters of background illumination acquired by the information acquisition circuit, wherein the scene parameters comprise:

the read scene parameters S _ c consist of four different parameters, namely outdoor O _ d, indoor O _ d, underground U _ d and specific S _ d;

step 2) the control circuit reads the illumination content information parameters collected by the information collection circuit, wherein the illumination content information parameters comprise:

the read lighting content information parameter I _ C consists of four different parameters, namely constant brightness C _ h, time control T _ h, light control L _ h and intelligent control I _ h;

step 3), the control circuit reads the pedestrian flow/environment identification information, and dynamically adjusts and controls the influence factor F (p) in real time according to the conditions of the pedestrian flow and the environment data, wherein the influence factor F (p) specifically comprises the following steps:

wherein k is₁、k₂、k₃Respectively, people flow, weather and time adjustment coefficients, P is the number of people flow changes, w is the number of changes in the weight of the weather factor, t is the time change factor, P_setSetting a people flow variation threshold;

step 4) carrying out intelligent control decision and control signal calculation according to the judgment results of the steps 1) to 3), specifically:

a. if the lighting content information parameter I _ C is constant brightness C _ h, F (p) ≠ 0, the overall drive control is adopted, and the overall PWM light intensity is adjusted according to the function parameter of F (p), otherwise, if F (p) =0, the overall drive control is closed;

b. if the lighting content information parameter I _ c is the time control T _ h, controlling the integral drive according to the set working time;

c. if the lighting content information parameter I _ c is the light control L _ h, controlling the whole drive according to the set illumination data and the illumination of the read environment parameter;

d. if the lighting content information parameter I _ c is intelligently controlled I _ h, intelligently controlling the scene parameter S _ c read in step 1), performing split driving control according to f (p), and accurately controlling each independent split circuit to realize the optimal lighting effect, wherein the specific gravity of each coefficient is adjusted according to the situation of the scene parameter S _ c in step 1), specifically:

；

and 5) the control circuit outputs corresponding control signals to realize the control of the integrally driven circuit and the separately driven circuit, and performs corresponding correction and adjustment according to effect feedback information acquired by the information acquisition circuit.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. An efficient intelligent scene lighting energy-saving controller is characterized by comprising a lighting driving adjusting circuit, an information acquisition circuit, a control circuit and a communication circuit, wherein,

the lighting driving adjusting circuit is connected to a lamp circuit of a scene lighting field, connected with the control circuit and used for controlling the integral driving of the whole scene lighting and the split driving of each partition block under the control signal sent by the control circuit;

the information acquisition circuit is arranged on a scene illumination field, is connected with the control circuit, is used for acquiring scene parameters, illumination content information, pedestrian flow/environment identification information and effect feedback information of the illumination field and sending the scene parameters, the illumination content information, the pedestrian flow/environment identification information and the effect feedback information to the control circuit, and the control circuit generates a control signal according to the received information;

the control circuit is connected with a communication circuit for data exchange, man-machine interface connection and information interconnection.

2. The efficient intelligent scene lighting energy-saving controller according to claim 1, wherein the lighting driving adjusting circuit is composed of an integral driving and a split driving discrete adjusting circuit, the integral driving is used for uniformly driving the whole scene lighting to perform uniform background lighting, and the split driving is used for independently driving and adjusting each partition block according to different scenes to achieve an optimized difference precision control effect.

3. The controller and the control method according to claim 2, wherein the lighting driving adjustment circuit is a PWM digitally controlled dedicated LED lighting circuit.

4. The controller and the control method according to claim 3, wherein the control circuit is a MSP430FR6045 control chip-based circuit.

5. An efficient and intelligent scene lighting energy-saving control method is characterized by comprising the following steps:

step 1) the control circuit reads scene parameters of background illumination acquired by the information acquisition circuit, wherein the scene parameters comprise:

the read scene parameters S _ c consist of four different parameters, namely outdoor O _ d, indoor O _ d, underground U _ d and specific S _ d;

step 2) the control circuit reads the illumination content information parameters collected by the information collection circuit, wherein the illumination content information parameters comprise:

wherein the read illumination contentThe information parameter I _ C consists of four different parameters of constant brightness C _ h, time control T _ h, light control L _ h and intelligent control I _ h;

step 3), the control circuit reads the pedestrian flow/environment identification information, and dynamically adjusts and controls the influence factor F (p) in real time according to the conditions of the pedestrian flow and the environment data, wherein the influence factor F (p) specifically comprises the following steps:

wherein k is₁、k₂、k₃Respectively, people flow, weather and time adjustment coefficients, P is the number of people flow changes, w is the number of changes in the weight of the weather factor, t is the time change factor, P_setSetting a people flow variation threshold;

step 4) carrying out intelligent control decision and control signal calculation according to the judgment results of the steps 1) to 3), specifically:

a. if the lighting content information parameter I _ C is constant brightness C _ h, F (p) ≠ 0, the overall drive control is adopted, and the overall PWM light intensity is adjusted according to the function parameter of F (p), otherwise, if F (p) =0, the overall drive control is closed;

b. if the lighting content information parameter I _ c is the time control T _ h, controlling the integral drive according to the set working time;

c. if the lighting content information parameter I _ c is the light control L _ h, controlling the whole drive according to the set illumination data and the illumination of the read environment parameter;

d. if the lighting content information parameter I _ c is intelligently controlled I _ h, intelligently controlling the scene parameter S _ c read in step 1), performing split driving control according to f (p), and accurately controlling each independent split circuit to realize the optimal lighting effect, wherein the specific gravity of each coefficient is adjusted according to the situation of the scene parameter S _ c in step 1), specifically:

；

and 5) the control circuit outputs corresponding control signals to realize the control of the integrally driven circuit and the separately driven circuit, and performs corresponding correction and adjustment according to effect feedback information acquired by the information acquisition circuit.

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