CN116489852A - Intelligent control system for street lamp - Google Patents

Abstract

The invention relates to the technical field of road illumination, in particular to an intelligent control system of a street lamp. The system comprises a light source lighting unit, a data acquisition unit, a light source control unit and a cloud service unit; according to the invention, the data acquisition unit is used for acquiring the traffic and light intensity data in the cell, so that the brightness control module can dynamically adjust the brightness of the street lamp according to the intensity of the light in the cell, thereby achieving the optimal lighting effect, reducing the waste of resources, and combining the priority distribution module to perform priority data analysis on the timing control module and the light control module, so that the street lamp can be turned on and off according to the actual requirements in the current stage, and further saving the illumination resources.

Description

Intelligent control system for street lamp

Technical Field

The invention relates to the technical field of road illumination, in particular to an intelligent control system of a street lamp.

Background

The street lamp is one of urban public facilities, plays an extremely important role in the urban process, and the traditional street lamp system is generally controlled by adopting modes such as manual or timing control switches, so that real-time monitoring and adjustment cannot be realized, the lighting effect is low, the energy consumption is high, the management cost is high, and therefore, how to realize the intelligent street lamp, the lighting effect and the energy consumption utilization rate of the street lamp are improved, and the reduction of the maintenance cost becomes the problem to be solved at present.

In the prior art, there are also many systems for intelligent control of street lamps, for example: according to the Chinese patent application number: 202 22096 5097.X provides an intelligent control system of street lamps, which comprises a server, a centralized controller, node controllers and street lamps, wherein each street lamp is provided with one node controller, the node controllers are used for detecting the voltage, the current and the faults of the street lamps and sending detection information to the centralized controller, and the server is used for sending control information to the node controllers through the centralized controller. The system can improve the flexibility of controlling the street lamp, and adjust the switching time and the brightness of the street lamp according to different seasons and weather in time;

the existing street lamp can be adjusted according to different seasons and weather, but the adjustment mode is usually aimed at street lamps used in a large environment, for example, on a road, vehicles are usually not used all day and night on the road, so that the street lamp can be switched on and off according to the change of the sky for ensuring good illumination, but in some communities with lower residence ratio, if the street lamp is simply switched on and off according to the change of the sky, the waste of resources is easily caused, for example, although the sky is darkened, no resident exists nearby the street lamp, and the street lamp is always switched on at the moment, so that the waste of resources is generated.

Disclosure of Invention

The invention aims to provide an intelligent control system for a street lamp, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the invention provides an intelligent street lamp control system, which comprises a light source lighting unit, a data acquisition unit, a light source control unit and a cloud service unit;

the light source lighting unit is used for lighting roads in the cell; the data acquisition unit is used for acquiring road condition data and light intensity data around a road and transmitting the acquired road condition data and light intensity data to the light source control unit; the light source control unit is used for analyzing road condition data and light intensity data and controlling the on-off of the light source illumination unit according to the priority of the analysis result; the cloud service unit is used for assisting the light source control unit to remotely control the light source illumination unit.

As a further improvement of the technical scheme, the data acquisition unit comprises a people flow acquisition module and a light intensity acquisition module;

the traffic collection module is used for collecting traffic data near the street lamp and uploading the traffic data in real time; the light intensity acquisition module is used for acquiring the intensity data of light and providing auxiliary information for the on-off of the street lamp.

As a further improvement of the technical scheme, the light source control unit comprises a brightness control module, a timing control module, a light control module and a priority distribution module;

the brightness control module is used for realizing dynamic adjustment of the brightness of the street lamp according to the current light intensity in the cell;

the timing control module is used for timing the opening and closing of the street lamp according to the preset opening and closing time of the street lamp;

the light control module is used for identifying the brightness of the light of the community and realizing the opening and closing of the street lamp according to the identification result;

the priority distribution module is used for analyzing the priority data of the timing control module and the light control module and coordinating the priority data of the timing control module and the light control module to conduct priority switching on and switching off of the street lamp.

As a further improvement of the technical scheme, the priority distribution module adopts a dynamic regulation technology, and the regulation steps are as follows:

the environment brightness of the current cell is judged by analyzing the light intensity data acquired by the light intensity acquisition module, and the timing control module and the light control module are coordinated according to the environment brightness of the current cell to control the timing on-off time of the road lamp in a combined state, and the method is as follows:

the light intensity collected by the light intensity collection module is in a night state, and the street lamp preset by the timing control module does not reach the starting time, so that the adjustment of the street lamp by the light control module is required to be selected preferentially, and the street lamp is in the starting state.

As a further improvement of the technical scheme, the priority allocation module comprises a collaborative analysis module;

the collaborative analysis module is used for assisting the priority distribution module to judge the priority data according to the current people flow data in the cell.

As a further improvement of the technical scheme, the collaborative analysis module adopts a priority judgment technology and comprises the following steps:

according to the data that analysis people's flow collection module and light intensity collection module gathered, the people's flow in the present district of analysis and the light intensity in the district in advance, when light control module and timing control module carry out dynamic adjustment to the street lamp according to the light intensity data that light control module gathered, still need consult people's flow data that people's flow collection module gathered, specifically do:

the light intensity collected by the light intensity collection module is in a night state, and the street lamp preset by the timing control module does not reach the starting time, the adjustment of the street lamp by the light control module is required to be selected preferentially, so that the street lamp is in the starting state.

As a further improvement of the technical scheme, the timing control module adopts a communication network technology, and the steps are as follows:

and selecting a reliable internet platform, setting the time for opening and closing the street lamp, and dynamically adjusting the time for opening and closing the street lamp remotely through the internet platform.

As a further improvement of the technical scheme, the light control module adopts a light intensity judging technology and comprises the following steps:

setting a light intensity threshold according to the current season, and judging that the light intensity is dark when the light intensity is lower than the set light intensity threshold by analyzing the light intensity data transmitted by the light intensity acquisition module; and judging that the light is bright when the light intensity is higher than the set light intensity threshold value.

As a further improvement of the technical scheme, the cloud service unit comprises a data receiving module and a control instruction issuing module;

the data receiving module is used for receiving the road condition data and the light intensity data uploaded by the data acquisition unit and the result of the priority analysis of the road condition data and the light intensity data uploaded by the light source control unit; and the control instruction issuing module is used for issuing a control instruction according to the result of the priority analysis and remotely controlling the road lamp.

Compared with the prior art, the invention has the beneficial effects that:

1. in this street lamp intelligent control system, gather people's flow and light intensity data in the district through data acquisition unit, make luminance control module can carry out dynamic adjustment to the luminance of street lamp according to the intensity of light in the district, and then reach the illuminating effect of optimizing, reduce the waste of resource, and combine priority distribution module to carry out the data analysis of priority to timing control module and light control module, make the street lamp open and close according to the actual demand of present stage, further practiced thrift the illumination resource.

2. In the intelligent control system for the street lamps, the priority distribution module is subjected to auxiliary analysis through the collaborative analysis module, and the people flow acquisition module is brought into the analysis category, so that comprehensive comparison analysis is performed on a plurality of factors influencing the opening of the street lamps, and the street lamps are opened and closed after the optimized result is selected.

Drawings

FIG. 1 is a schematic block diagram of the overall structure of an embodiment of the present invention;

fig. 2 is a schematic block diagram of a data acquisition unit and a light source control unit according to an embodiment of the present invention.

The meaning of each reference sign in the figure is:

10. a light source illumination unit;

20. a data acquisition unit; 21. a people flow collection module; 22. the light intensity acquisition module;

30. a light source control unit; 31. a brightness control module; 32. a timing control module; 33. a light control module; 34. a priority allocation module; 341. a collaborative analysis module;

40. and the cloud service unit.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The existing street lamp can be adjusted according to different seasons and weather, but the adjustment mode is usually aimed at street lamps used in a large environment, for example, on a road, vehicles are usually not used all day and night on the road, so that the street lamp can be switched on and off according to the change of the sky for ensuring good illumination, but in some communities with lower residence ratio, if the street lamp is simply switched on and off according to the change of the sky, the waste of resources is easily caused, for example, although the sky is darkened, no resident exists nearby the street lamp, and the street lamp is always switched on at the moment, so that the waste of resources is generated.

Example 1

Referring to fig. 1-2, a first embodiment of the present invention is shown, and the present embodiment provides an intelligent street lamp control system, which includes a light source lighting unit 10, a data acquisition unit 20, a light source control unit 30 and a cloud service unit 40;

the light source lighting unit 10 is used for lighting roads in a cell;

the light source lighting unit 10 mainly comprises an LED lamp cap, an LED light emitting diode and a controller, wherein the LED light emitting diode is used as a lighting source, the controller controls the LED lighting intensity, the LED lamp cap is used as a fixing device and can be installed on a lamp post, and the light source lighting unit 10 is connected with the light source control unit 30.

The data acquisition unit 20 is configured to acquire road condition data and light intensity data around a road, and transmit the acquired road condition data and light intensity data to the light source control unit 30;

the data acquisition unit 20 comprises a traffic acquisition module 21 and a light intensity acquisition module 22;

the people flow collection module 21 is used for collecting people flow data near the street lamp and uploading the people flow data in real time; the light intensity acquisition module 22 is used for acquiring the intensity data of light and providing auxiliary information for the on-off of the street lamp

The people flow collection module 21 adopts a people flow sensor, the people flow sensor emits radio waves through the sensor, when people or objects enter the sensing area, the radio waves are reflected back to the sensor and detected by a receiver, and the sensor can calculate the number of people and the flow by detecting the strength and time of the reflected signals;

the light intensity acquisition module 22 adopts a light intensity sensor, and the light intensity sensor converts a light signal into an electric signal by utilizing the characteristics of a photosensitive element, so that the purpose of measuring the light intensity is realized;

after the data of the number of people and the light intensity are collected, the data is transmitted to the light source control unit 30, and the light source control unit 30 performs data analysis.

The light source control unit 30 is used for analyzing road condition data and light intensity data, and controlling the on/off of the light source lighting unit 10 according to the priority of the analysis result;

the light source control unit 30 includes a brightness control module 31, a timing control module 32, a light control module 33, and a priority assignment module 34;

the light control module 33 is used for identifying the brightness of the light of the community and realizing the on and off of the street lamp according to the identification result;

the light control module 33 adopts a light intensity determination technique, which includes the following steps:

setting a light intensity threshold according to the current season, and judging that the light intensity is dark when the light intensity is lower than the set light intensity threshold by analyzing the light intensity data transmitted by the light intensity acquisition module 22; judging that the light is bright when the light intensity is higher than a set light intensity threshold value;

assuming that the present stage is in winter, the setting of the light intensity to be greater than 5000 lux may be regarded as daytime, and the setting of the light intensity to be less than 3000 lux may be regarded as dark, so that the street lamp may be turned on when the light intensity data received by the light control module 33 is less than 3000 lux.

The brightness control module 31 is used for realizing dynamic adjustment of the brightness of the street lamp according to the current light intensity in the cell;

the brightness control module 31 also adjusts the brightness of the street lamp by receiving the light intensity data transmitted by the light intensity acquisition module 22, and the darker the light in the cell, the brighter the street lamp.

The timing control module 32 is used for timing the on and off of the street lamp according to the preset time for the on and off of the street lamp;

the timing control module 32 adopts the communication network technology, and comprises the following steps:

selecting a reliable internet platform, setting the time for turning on and off the street lamp, and dynamically adjusting the time for turning on and off the street lamp remotely through the internet platform;

the road lamp can be remotely turned on and off in a specified time through the Internet platform at the moment, and the road lamp is set to be turned on at six points in the evening and turned off at five points in the morning on the premise of the Internet platform.

The priority distribution module 34 is configured to analyze priority data of the timing control module 32 and the light control module 33, and coordinate priority data of the timing control module 32 and the light control module 33 to perform priority switching on and off of the street lamp

The priority assignment module 34 employs dynamic adjustment techniques, which include the following:

the light intensity data collected by the light intensity collection module 22 is analyzed to judge the environment brightness of the current cell, and the timing control module 32 and the light control module 33 coordinate the timing on-off time of the road lamp in the combined state according to the environment brightness of the current cell, specifically as follows:

the light intensity collected by the light intensity collection module 22 is in a night state, and the street lamp preset by the timing control module 32 does not reach the opening time, the adjustment of the street lamp by the light control module 33 needs to be selected preferentially, so that the street lamp is in an opening state.

Considering that the time of the day black and the day bright is not fixed in each season, if the street lamps are simply turned on and off by the timing control module 32 or the light control module 33, some defects of street lamp use can occur, for example, the preset street lamp turn-on time of the timing control module 32 in winter is six points, and normally, the day color of five points or so is blackened, at this time, in order to enable the normal life of residents in a community, the data of the street lamps need to be dynamically adjusted by the priority distribution module 34, so that the street lamps are turned on in advance, and the life of the residents is ensured.

The cloud service unit 40 is used for assisting the light source control unit 30 to remotely control the light source lighting unit 10;

the cloud service unit 40 comprises a data receiving module and a control instruction issuing module;

the data receiving module is used for receiving the road condition data and the light intensity data uploaded by the data acquisition unit 20 and the result of the priority analysis of the road condition data and the light intensity data uploaded by the light source control unit 30; the control instruction issuing module is used for issuing a control instruction according to the result of the priority analysis and remotely controlling the road lamp.

Example 2

In the above embodiment, although the streetlight is dynamically adjusted to be turned on with the aid of the light intensity data, in some communities with low residence ratio, if the traffic of people in the communities is small or even no people, the streetlight is turned on all the time to cause the waste of illumination resources, so that the above embodiment is perfected.

The priority assignment module 34 includes a collaborative analysis module 341;

the collaborative analysis module 341 is configured to assist the priority allocation module 34 to determine priority data according to current traffic data in a cell.

The collaborative analysis module 341 adopts a priority determination technique, including the following steps:

according to the data collected by the people flow collection module 21 and the light intensity collection module 22, the people flow in the current cell and the light intensity in the cell are analyzed in advance, and when the light control module 33 and the timing control module 32 dynamically adjust the street lamp according to the light intensity data collected by the light control module 33, the people flow data collected by the people flow collection module 21 need to be referred to, specifically:

the light intensity collected by the light intensity collection module 22 is in a night state, and the street lamp preset by the timing control module 32 does not reach the starting time, the adjustment of the street lamp by the light control module 33 needs to be selected preferentially, so that the street lamp is in the starting state, and the traffic collection module 21 collects the unmanned traffic in the district, so that the street lamp can not be started by the timing control module 32 preferentially, and the waste of illumination resources is reduced.

In summary, the data acquisition unit 20 acquires the traffic and light intensity data in the cell, so that the brightness control module 31 can dynamically adjust the brightness of the street lamp according to the intensity of the light in the cell, thereby achieving the optimized lighting effect, reducing the waste of resources, and combining the priority distribution module 34 to perform the data analysis of the priority of the timing control module 32 and the light control module 33, so that the street lamp can be turned on and off according to the actual requirements at the present stage, and further saving the illumination resources; the priority distribution module 34 is subjected to auxiliary analysis by the collaborative analysis module 341, and the people flow acquisition module 21 is brought into the analysis category, so that comprehensive comparison analysis is performed on a plurality of factors influencing the opening of the street lamp, and the street lamp is opened and closed after the optimized result is selected.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. An intelligent control system for street lamps is characterized in that: the system comprises a light source lighting unit (10), a data acquisition unit (20), a light source control unit (30) and a cloud service unit (40);

the light source lighting unit (10) is used for lighting roads in a cell; the data acquisition unit (20) is used for acquiring road condition data and light intensity data around a road and transmitting the acquired road condition data and light intensity data to the light source control unit (30); the light source control unit (30) is used for analyzing road condition data and light intensity data and controlling the on-off of the light source illumination unit (10) according to the priority of the analysis result; the cloud service unit (40) is used for assisting the light source control unit (30) in remotely controlling the light source illumination unit (10).

2. The intelligent street lamp control system of claim 1, wherein: the data acquisition unit (20) comprises a people flow acquisition module (21) and a light intensity acquisition module (22);

the people flow acquisition module (21) is used for acquiring people flow data near the street lamp and uploading the people flow data in real time; the light intensity acquisition module (22) is used for acquiring the intensity data of light and providing auxiliary information for the on-off of the street lamp.

3. The intelligent street lamp control system of claim 1, wherein: the light source control unit (30) comprises a brightness control module (31), a timing control module (32), a light control module (33) and a priority distribution module (34);

the brightness control module (31) is used for realizing dynamic adjustment of the brightness of the street lamp according to the current light intensity in the cell;

the timing control module (32) is used for timing the opening and closing of the street lamp according to the preset opening and closing time of the street lamp;

the light control module (33) is used for identifying the brightness of the light of the community and realizing the opening and closing of the street lamp according to the identification result;

the priority distribution module (34) is used for analyzing the priority data of the timing control module (32) and the light control module (33), and coordinating the priority data of the timing control module (32) and the light control module (33) to conduct priority switching on and switching off of the street lamp.

4. The intelligent street lamp control system of claim 3, wherein: the priority allocation module (34) adopts a dynamic adjustment technology, and the adjustment steps are as follows:

the environment brightness of the current cell is judged by analyzing the light intensity data acquired by the light intensity acquisition module (22), and the timing control module (32) and the light control module are coordinated according to the environment brightness of the current cell to control the timing on-off time of the road lamp under the combined state, specifically as follows:

the light intensity collected by the light intensity collection module (22) is in a night state, and the street lamp preset by the timing control module (32) is not started, so that the adjustment of the light control module (33) to the street lamp is required to be selected preferentially, and the street lamp is in the starting state.

5. The intelligent street lamp control system of claim 4, wherein: the priority assignment module (34) comprises a collaborative analysis module (341);

the collaborative analysis module (341) is used for assisting the priority distribution module (34) to judge the priority data according to the current people flow data in the cell.

6. The intelligent street lamp control system of claim 5, wherein: the collaborative analysis module (341) adopts a priority determination technology, and comprises the following steps:

according to the data collected by the analysis people flow collection module (21) and the light intensity collection module (22), people flow in the current cell and light intensity in the cell are analyzed in advance, when the light control module (33) and the timing control module (32) dynamically regulate the street lamp according to the light intensity data collected by the light control module (33), people flow data collected by the people flow collection module (21) are referred to, and the method specifically comprises the following steps:

the light intensity collected by the light intensity collection module (22) is in a night state, and the street lamp preset by the timing control module (32) does not reach the starting time, the adjustment of the street lamp by the light control module (33) is required to be selected preferentially, so that the street lamp is in the starting state, and the traffic collection module (21) collects no traffic in a community, so that the timing control module (32) can be adopted preferentially to not start the street lamp.

7. The intelligent street lamp control system of claim 6, wherein: the timing control module (32) adopts a communication network technology, and comprises the following steps:

and selecting a reliable internet platform, setting the time for opening and closing the street lamp, and dynamically adjusting the time for opening and closing the street lamp remotely through the internet platform.

8. The intelligent street lamp control system of claim 7, wherein: the light control module (33) adopts a light intensity judging technology, and comprises the following steps:

setting a light intensity threshold according to the current season, and judging that the light intensity is dark when the light intensity is lower than the set light intensity threshold by analyzing the light intensity data transmitted by the light intensity acquisition module (22); and judging that the light is bright when the light intensity is higher than the set light intensity threshold value.

9. The intelligent street lamp control system of claim 1, wherein: the cloud service unit (40) comprises a data receiving module and a control instruction issuing module;

the data receiving module is used for receiving road condition data and light intensity data uploaded by the data acquisition unit (20) and the result of priority analysis on the road condition data and the light intensity data uploaded by the light source control unit (30); and the control instruction issuing module is used for issuing a control instruction according to the result of the priority analysis and remotely controlling the road lamp.