CN108055726B - Energy-saving illumination system and method for LED street lamp - Google Patents

Abstract

The invention discloses an energy-saving illumination system and method for an LED street lamp, which comprises an embedded processing unit, a light-emitting diode (LED) module, an image acquisition module, a brightness adjusting module, a brightness detection module, a wireless transmission module and a solar cell module, wherein the embedded processing unit is respectively connected with the LED module, the image acquisition module, the brightness adjusting module, the brightness detection module, the wireless transmission module and the solar cell module; the image acquisition module is opposite to the driving direction and used for acquiring image information of pedestrians and vehicles and transmitting the data to the embedded processing unit; the embedded processing unit receives the brightness information of the brightness adjusting module and controls the on-off and the brightness of the street lamp according to the collected image information of pedestrians and vehicles; the intelligent street lamp control system reduces the waste of lighting resources, assists traffic and public security management, and realizes intelligent control of the street lamp.

Description

Energy-saving illumination system and method for LED street lamp

Technical Field

The invention relates to the field of LED lamp illumination, in particular to an energy-saving illumination system and method for an LED street lamp.

Background

The improvement is open, along with the continuous development of economy in China and the continuous expansion of urban scale, great achievements are obtained in the construction of urban illumination, the continuous development and the continuous consumption of resources, energy conservation becomes an important issue in urban illumination, according to statistics, the proportion of urban street lamp illumination accounting for about 30% of illumination power consumption in China is calculated, and in a ten-thousand street lamp city, the electric energy consumed only in street lamp illumination every year is up to more than 2000 ten thousand kilowatt-hours. Conventional road lighting technology has long played a leading role in road lighting, such as High Pressure Sodium (HPS) lamps and partial Metal Halide (MH) lamps. However, because the traditional light source lacks directionality in light emission, it is difficult to control the light distribution of the light source, so that the traditional street lamp has some problems in lighting, such as: glare, uneven light intensity distribution, reflection to the sky, light pollution, and waste of light energy sources. In recent years, with the rapid development of LED lighting technology, LEDs have been widely used in urban road lighting due to the advantages of long service life, shock resistance, high efficiency, good control capability for light sources, and the like, but still have the problems of lighting waste, public security management, and potential safety hazards of night traffic.

Disclosure of Invention

Aiming at the defects and shortcomings in the prior art, the invention aims to provide a multifunctional LED street lamp energy-saving illumination system and method.

The specific technical scheme is as follows:

an LED street lamp energy-saving illumination system comprises LED street lamps arranged on lamp posts on two sides of a road surface, wherein each LED street lamp comprises an LED module, an embedded processing unit, an image acquisition module, a brightness adjusting module, a brightness detection module, a wireless transmission module and a solar cell module; the embedded processing unit is respectively connected with the LED module, the image acquisition module, the brightness adjusting module, the brightness detection module, the wireless transmission module and the solar cell module; the image acquisition module is opposite to the driving direction and used for acquiring image information of pedestrians and vehicles and transmitting the data to the embedded processing unit; the embedded processing unit receives the brightness information of the brightness adjusting module and controls the on-off and the brightness of the street lamp according to the collected image information of pedestrians and vehicles; the wireless communication module is used for realizing the mutual communication of the embedded processing units of the street lamps and controlling the switch and the brightness of the street lamps in a linkage manner; the embedded processing unit wirelessly transmits the video information acquired by the image acquisition module to the traffic control center.

Further, the solar cell module collects solar energy in the daytime and assists all parts except the LED module to supply power;

furthermore, street lamps on each side of the road surface are arranged at equal intervals, street lamps on two sides are arranged in a staggered mode, and the street lamp interval is 40 m;

further, the image acquisition module is an infrared camera and is used for acquiring image information of pedestrians and vehicles between the two street lamps;

further, the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles, specifically:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the pedestrian information is collected by the infrared camera, the embedded processing unit lights the LED module, adjusts the brightness to the brightest mode through the brightness adjusting module, controls the wireless communication module to send a light-on instruction to the adjacent street lamp, lights the LED module after the adjacent street lamp receives the light-on instruction, and adjusts the brightness to the secondary light mode;

further, the above process further comprises:

the infrared camera collects the walking direction of the pedestrian, and only lights the street lamp on the side of the pedestrian when the pedestrian walks along the road;

when the street lamp crosses the pavement, the street lamps on the two sides of the pavement are lightened;

further, the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles, specifically:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires information of the motor vehicle, the infrared camera detects the running speed of the motor vehicle, the embedded processing unit lights the LED module, and the brightness is adjusted to the brightest mode through the brightness adjusting module;

when 0< vehicle speed < 30: lighting 3 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 30< vehicle speed < 60: lighting 5 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 7 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 9 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 90< vehicle speed < 120: lighting 11 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

wherein the front of the vehicle refers to the driving direction of the vehicle, and the rear of the vehicle refers to the opposite driving direction of the vehicle;

further, the above process further comprises:

lighting the street lamps on the driving side, and lighting the street lamps on the reverse driving side at intervals; the brightness of the street lamp is gradually reduced according to the distance from the street lamp to the vehicle;

further, the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles, specifically:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires that the pedestrian rides a bicycle, a motorcycle or other transportation tools, the same illumination mode as that of the motor vehicle is adopted;

further, the process of detecting the running speed of the motor vehicle by the infrared camera comprises the following steps: detecting the time when a vehicle passes through street lamps or driving lines by taking the street lamps or the driving lines on the road surface as a reference object, and measuring and calculating the speed of the vehicle according to the distance between the street lamps or the driving lines;

further, when the overspeed of the vehicle is detected, the embedded processing unit transmits the identified license plate number and the picture information to a traffic control center through a wireless communication module;

furthermore, the traffic control center can call and store the video information of the image acquisition module in real time through the wireless communication module;

an energy-saving illumination method of an LED street lamp is based on the energy-saving illumination system of the LED street lamp;

the embedded processing unit receives the brightness information of the brightness adjusting module and controls the on-off and the brightness of the street lamp according to the collected image information of pedestrians and vehicles;

when the brightness detected by the brightness adjusting module is lower than a threshold value and the pedestrian information is collected by the infrared camera, the embedded processing unit lights the LED module, adjusts the brightness to the brightest mode through the brightness adjusting module, controls the wireless communication module to send a light-on instruction to the adjacent street lamp, lights the LED module after the adjacent street lamp receives the light-on instruction, and adjusts the brightness to the secondary light mode;

further, the above process further comprises:

the infrared camera collects the walking direction of the pedestrian, and only lights the street lamp on the side of the pedestrian when the pedestrian walks along the road;

when the street lamp crosses the pavement, the street lamps on the two sides of the pavement are lightened;

further, when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires information of the motor vehicle, the infrared camera detects the running speed of the motor vehicle, the embedded processing unit lights the LED module, and the brightness is adjusted to the brightest mode through the brightness adjusting module;

when 0< vehicle speed < 30: lighting 3 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 30< vehicle speed < 60: lighting 5 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 7 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 9 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 90< vehicle speed < 120: lighting 11 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

wherein the front of the vehicle refers to the driving direction of the vehicle, and the rear of the vehicle refers to the opposite driving direction of the vehicle;

further, the above process further comprises:

lighting the street lamps on the driving side, and lighting the street lamps on the reverse driving side at intervals; the brightness of the street lamp is gradually reduced according to the distance from the street lamp to the vehicle;

further, the process of detecting the running speed of the motor vehicle by the infrared camera comprises the following steps: detecting the time when a vehicle passes through street lamps or driving lines by taking the street lamps or the driving lines on the road surface as a reference object, and measuring and calculating the speed of the vehicle according to the distance between the street lamps or the driving lines;

further, when the overspeed of the vehicle is detected, the embedded processing unit transmits the identified license plate number and the picture information to a traffic control center through a wireless communication module;

furthermore, the traffic control center can call and store the video information of the image acquisition module in real time through the wireless communication module;

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

1. the LED street lamp energy-saving illumination system provided by the invention provides multifunctional intelligent illumination control, so that street lamp illumination is safer and power-saving.

2. Through the pedestrian's route of marcing of video analysis, accurate control street lamp switch avoids the wasting of resources.

3. The vehicle speed, the response speed of a driver and the braking distance are comprehensively considered, the number of the street lamps which are lighted at the front and rear distances of the vehicle under the condition of different vehicle speeds can be obtained through multiple tests, the street lamps are accurately controlled to be turned on and off according to different vehicle speeds, the brightness of the street lamps is controlled through the distance between the street lamps and the vehicle, and the resource waste is further reduced.

4. The traffic control of supplementary traffic control center prevents to exceed the speed limit and causes the hidden danger of accident. The traffic control center's control management is assisted, reduces crime rate to help the evidence of getting behind the traffic accident, realize the multi-functionalization of street lamp energy-conserving illumination.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

fig. 2 is a schematic view of the street lamp arrangement of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

An LED street lamp energy-saving illumination system comprises LED street lamps arranged on lamp posts on two sides of a road surface, wherein each LED street lamp comprises an LED module, an embedded processing unit, an image acquisition module, a brightness adjusting module, a brightness detection module, a wireless transmission module and a solar cell module; the embedded processing unit is respectively connected with the LED module, the image acquisition module, the brightness adjusting module, the brightness detection module, the wireless transmission module and the solar cell module; the image acquisition module is opposite to the driving direction and used for acquiring image information of pedestrians and vehicles and transmitting the data to the embedded processing unit; the embedded processing unit receives the brightness information of the brightness adjusting module and controls the on-off and the brightness of the street lamp according to the collected image information of pedestrians and vehicles.

Furthermore, street lamps on each side of the road surface are arranged at equal intervals, street lamps on two sides are arranged in a staggered mode, and the street lamp interval is 40 m; the street lamps are arranged in a staggered manner, so that the problem that in the prior art, the street lamps on two sides of a road surface are arranged oppositely to cause light and shade staggered, and the uneven brightness of the road surface brings eyestrain to pedestrians, especially drivers, and causes traffic hidden trouble is solved;

further, the image acquisition module is an infrared camera and is used for acquiring image information of pedestrians and vehicles between the two street lamps;

furthermore, each LED street lamp also comprises a wireless communication module, so that the embedded processing units of the street lamps can be communicated with each other, and the switch and the brightness of the street lamps can be controlled in a linkage manner; therefore, the problem of resource waste caused by the fact that the street lamps are opened once and fully or work independently in the prior art is solved;

further, the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles, specifically:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the pedestrian information is collected by the infrared camera, the embedded processing unit lights the LED module, adjusts the brightness to the brightest mode through the brightness adjusting module, controls the wireless communication module to send a light-on instruction to the adjacent street lamp, lights the LED module after the adjacent street lamp receives the light-on instruction, and adjusts the brightness to the secondary light mode; therefore, the problem of lighting waste of the street lamp in a place without pedestrians when the street lamp is opened once and is opened completely in the prior art is solved;

further, the above process further comprises:

the infrared camera collects the walking direction of the pedestrian, and only lights the street lamp on the side of the pedestrian when the pedestrian walks along the road;

when the street lamp crosses the pavement, the street lamps on the two sides of the pavement are lightened; therefore, the street lamp is gradually lightened according to the advancing direction of the pedestrian, and the resource waste is reduced.

Further, the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles, specifically:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires information of the motor vehicle, the infrared camera detects the running speed of the motor vehicle, the embedded processing unit lights the LED module, and the brightness is adjusted to the brightest mode through the brightness adjusting module;

when 0< vehicle speed < 30: lighting 3 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 30< vehicle speed < 60: lighting 5 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 7 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 9 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 90< vehicle speed < 120: lighting 11 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

wherein the front of the vehicle refers to the driving direction of the vehicle, and the rear of the vehicle refers to the opposite driving direction of the vehicle;

further, the above process further comprises:

lighting the street lamps on the driving side, and lighting the street lamps on the reverse driving side at intervals; the brightness of the street lamp is gradually reduced according to the distance from the street lamp to the vehicle;

the vehicle speed, the response speed of a driver and the braking distance are comprehensively considered, the number of the street lamps which are lighted at the front and rear distances of the vehicle under the condition of different vehicle speeds can be obtained through multiple tests, the street lamps are accurately controlled to be turned on and off according to different vehicle speeds, the brightness of the street lamps is controlled through the distance between the street lamps and the vehicle, and the resource waste is further reduced.

Further, the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles, specifically:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires that the pedestrian rides a bicycle, a motorcycle or other transportation tools, the same illumination mode as that of the motor vehicle is adopted;

further, the process of detecting the running speed of the motor vehicle by the infrared camera comprises the following steps: detecting the time when a vehicle passes through street lamps or driving lines by taking the street lamps or the driving lines on the road surface as a reference object, and measuring and calculating the speed of the vehicle according to the distance between the street lamps or the driving lines; therefore, the vehicle speed measurement is realized only by the infrared camera, the arrangement of speed measurement components such as radars is reduced, and the construction cost is reduced.

Further, when the overspeed of the vehicle is detected, the embedded processing unit transmits the identified license plate number and the picture information to a traffic control center through a wireless communication module; therefore, the traffic control of a traffic control center is assisted, and the hidden danger of accidents caused by overspeed is prevented.

Furthermore, the traffic control center can call and store the video information of the image acquisition module in real time through the wireless communication module; therefore, the traffic control center is assisted in monitoring and management, crime rate is reduced, evidence collection after traffic accidents is facilitated, and the energy-saving illumination of the street lamp is multifunctional.

An energy-saving illumination method of an LED street lamp is based on the energy-saving illumination system of the LED street lamp;

the embedded processing unit receives the brightness information of the brightness adjusting module and controls the on-off and the brightness of the street lamp according to the collected image information of pedestrians and vehicles;

when the brightness detected by the brightness adjusting module is lower than a threshold value and the pedestrian information is collected by the infrared camera, the embedded processing unit lights the LED module, adjusts the brightness to the brightest mode through the brightness adjusting module, controls the wireless communication module to send a light-on instruction to the adjacent street lamp, lights the LED module after the adjacent street lamp receives the light-on instruction, and adjusts the brightness to the secondary light mode;

further, the above process further comprises:

the infrared camera collects the walking direction of the pedestrian, and only lights the street lamp on the side of the pedestrian when the pedestrian walks along the road;

when the street lamp crosses the pavement, the street lamps on the two sides of the pavement are lightened;

further, when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires information of the motor vehicle, the infrared camera detects the running speed of the motor vehicle, the embedded processing unit lights the LED module, and the brightness is adjusted to the brightest mode through the brightness adjusting module;

when 0< vehicle speed < 30: lighting 3 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 30< vehicle speed < 60: lighting 5 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 7 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 9 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 90< vehicle speed < 120: lighting 11 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

wherein the front of the vehicle refers to the driving direction of the vehicle, and the rear of the vehicle refers to the opposite driving direction of the vehicle;

further, the above process further comprises:

lighting the street lamps on the driving side, and lighting the street lamps on the reverse driving side at intervals; the brightness of the street lamp is gradually reduced according to the distance from the street lamp to the vehicle;

further, when the overspeed of the vehicle is detected, the embedded processing unit transmits the identified license plate number and the picture information to a traffic control center through a wireless communication module;

furthermore, the traffic control center can call and store the video information of the image acquisition module in real time through the wireless communication module;

finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, although the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims (1)

1. The lighting method based on the LED street lamp energy-saving lighting system comprises the LED street lamps arranged on lamp posts on two sides of a road surface, and is characterized in that: each LED street lamp comprises an LED module, an embedded processing unit, an image acquisition module, a brightness adjusting module, a brightness detection module, a wireless transmission module and a solar cell module; the embedded processing unit is respectively connected with the LED module, the image acquisition module, the brightness adjusting module, the brightness detection module, the wireless transmission module and the solar cell module; the image acquisition module is opposite to the driving direction and used for acquiring image information of pedestrians and vehicles and transmitting the data to the embedded processing unit; the embedded processing unit receives the brightness information of the brightness adjusting module and controls the on-off and the brightness of the street lamp according to the collected image information of pedestrians and vehicles; the wireless transmission module realizes the mutual communication of the embedded processing units of the street lamps and controls the switch and the brightness of the street lamps in a linkage way; the embedded processing unit wirelessly transmits the video information acquired by the image acquisition module to a traffic control center;

street lamps on each side of the road surface are arranged at equal intervals, the street lamps on two sides are arranged in a staggered mode, and the street lamp interval is 40 m; the light and shade staggering caused by the opposite arrangement of the street lamps at the two sides of the road surface and the eyestrain caused by the uneven brightness of the road surface to pedestrians and drivers are prevented, so that the potential traffic hazard is caused;

the image acquisition module is an infrared camera and is used for acquiring image information of pedestrians and vehicles between the two street lamps;

the embedded processing unit receives the brightness information of the brightness adjusting module and controls the street lamp switch and the brightness process according to the collected image information of pedestrians and vehicles:

when the brightness detected by the brightness adjusting module is lower than a threshold value and the pedestrian information is collected by the infrared camera, the embedded processing unit lights the LED module, adjusts the brightness to the brightest mode through the brightness adjusting module, controls the wireless communication module to send a light-on instruction to the adjacent street lamp, lights the LED module after the adjacent street lamp receives the light-on instruction, and adjusts the brightness to the secondary light mode;

the infrared camera collects the walking direction of the pedestrian, and only lights the street lamp on the side of the pedestrian when the pedestrian walks along the road; when the street lamp crosses the pavement, the street lamps on the two sides of the pavement are lightened; therefore, the street lamp is gradually lightened according to the advancing direction of the pedestrian, and the resource waste is reduced;

when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera collects that pedestrians ride the motorcycle, the same lighting mode as that of the motor vehicle is adopted;

when the brightness detected by the brightness adjusting module is lower than a threshold value and the infrared camera acquires information of the motor vehicle, the infrared camera detects the running speed of the motor vehicle, the embedded processing unit lights the LED module, and the brightness is adjusted to the brightest mode through the brightness adjusting module;

when 0< vehicle speed < 30: lighting 3 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 30< vehicle speed < 60: lighting 5 street lamps in front of the vehicle and 3 street lamps behind the vehicle;

when 60< vehicle speed < 90: lighting 7 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

when 90< vehicle speed < 120: lighting 11 street lamps in front of the vehicle and 2 street lamps behind the vehicle;

the accurate on-off control of the street lamp according to different vehicle speeds is realized;

wherein the front of the vehicle refers to the driving direction of the vehicle, and the rear of the vehicle refers to the opposite driving direction of the vehicle;

lighting the street lamps on the driving side, and lighting the street lamps on the reverse driving side at intervals; the brightness of the street lamp is gradually reduced according to the distance from the street lamp to the vehicle;

the speed measurement is realized only by means of the infrared camera, and the process of detecting the running speed of the motor vehicle by the infrared camera comprises the following steps: detecting the time when a vehicle passes through street lamps or driving lines by taking the street lamps or the driving lines on the road surface as a reference object, and measuring and calculating the speed of the vehicle according to the distance between the street lamps or the driving lines;

when the vehicle is detected to be overspeed, the embedded processing unit transmits the identified license plate number and the picture information to a traffic control center through a wireless communication module; the traffic control of a traffic control center is assisted, and accident potential caused by overspeed is prevented;

the traffic control center can call and store the video information of the image acquisition module in real time through the wireless communication module;

the solar cell module collects solar energy in the daytime and assists all parts except the LED module to supply power.

Images