CN108347566A - Network remote controls intelligent transport technology Imaging for Monitoring light compensating apparatus - Google Patents

Abstract

The present invention relates to the traffic technique Imaging for Monitoring light compensating apparatus that traffic technique Imaging for Monitoring light filling field more particularly to a kind of network remote control.A kind of network remote control intelligent transport technology Imaging for Monitoring light compensating apparatus, includes the LED light emitting device and LED drive module of interconnection, further includes CPU processing modules, detection module and power supply module；Detection module is used to detect the state of LED drive module and power supply module and transmits signal to CPU processing modules；CPU processing modules receive the signal of detection module, and control LED drive module, and power supply module provides electric power to CPU processing modules, detection module and LED drive module respectively.The present invention realizes that spontaneous sudden strain of a muscle, synchronous sudden strain of a muscle, external trigger Three models are integrated, and pulse brightness Independent adjustable.Large number of equipment input cost and facility complexity are saved, while also saving a large amount of electricity consumptions.

Description

Network remote control intelligent traffic technology monitoring imaging light supplement device

Technical Field

The invention relates to the field of traffic technology monitoring imaging light supplement, in particular to a network remote control intelligent traffic technology monitoring imaging light supplement device.

Background

At present, all monitoring imaging light supplement device products such as urban traffic technology monitoring imaging light supplement, safe urban technology imaging light supplement, skynet engineering technology imaging light supplement and the like use fixed power to supplement light for an environment, the on and off modes of the monitoring imaging light supplement device products adopt photosensitive control or time control switch control, and a large amount of energy is wasted in the traditional mode; on one hand, for the scene with street lamp ambient light illumination in the city, the imaging light supplement device does not need to work in a full-power state; on the other hand, due to the difference of geographical positions of the regions, the sunrise and sunset times are also different. The opening and closing of the imaging light supplement device is controlled by using time, so that energy waste is caused. Excessive application of urban traffic light or inappropriate light radiation causes light pollution effects to human living and production environments. The light pollution not only causes energy waste, but also causes damage to the physiological and psychological health of people. In addition, the ecological environment can be seriously damaged by excessive light pollution, and the production and the life of residents are influenced. Excessive light pollution is a great potential safety hazard to traffic safety.

At present, more and more monitoring point positions are used in safe city construction, and the quality of night light supplement equipment of a front-end monitoring point position is directly related to the quality of night video quality. The imaging light supplement device used in the prior art is operated in a traditional fixed mode, a background manager cannot acquire the real-time operation condition of the imaging light supplement device in real time, and can only call a night video or know the night video after checking the night video or the real-time operation condition of the imaging light supplement device. And the damaged imaging light supplement equipment cannot be maintained in time. When the night video needs to be called, the fact that the front-end light supplement equipment is damaged is found, the video needing to be called is dark, and the effect of the skynet project in the safe city is affected. Once a case occurs at the position, the historical image data cannot be used, and the result cannot be compensated.

In addition, the used formation of image light filling device among the prior art, after every position is installed, all will arrive the manual parameter setting of position once more in the image debugging process, finely tune the correction, greatly increased the construction degree of difficulty and construction cost.

All monitoring imaging light supplement device products such as the existing urban traffic technology monitoring imaging light supplement, the safe urban technology imaging light supplement, the skynet engineering technology imaging light supplement and the like do not have the remote intelligent management function. The power, mode, duration, photosensitivity and other related parameters of the imaging light filling device cannot be remotely controlled. The construction maintenance personnel can set relevant parameters of the light supplement device only through special equipment or indirect equipment when the construction maintenance personnel arrive at the site.

Disclosure of Invention

In order to solve the defects of the prior art, the application provides a network remote control intelligent traffic technology monitoring imaging light supplement device convenient to detect.

A network remote control intelligent traffic technology monitoring imaging light supplement device comprises an LED light emitting device, an LED driving module, a CPU processing module, a detection module and a power supply module, wherein the LED light emitting device and the LED driving module are connected with each other; the detection module is used for detecting the states of the LED driving module and the power supply module and transmitting signals to the CPU processing module; the CPU processing module receives the signal of the detection module and controls the LED driving module, and the power supply module respectively provides power for the CPU processing module, the detection module and the LED driving module.

Furthermore, the detection module converts the output voltage and current of the power supply module into a voltage signal, amplifies the voltage signal, inputs the voltage signal into the CPU processing module, and the CPU processing module performs AD conversion to acquire data, calculates output power, and determines whether the power supply module normally operates.

Furthermore, the detection module detects the load condition of the LED driving module, and judges that the lamp bead is damaged if no load exists for a long time, and judges that the contact of the lead of the lamp bead is poor if the load exists occasionally.

Further, in the above-mentioned case,

the detection module consists of a plurality of signal sampling circuits, samples and amplifies signals through an operational amplifier, inputs the signals into an AD conversion circuit of the CPU processing module, converts the signals into digital signals, and judges and processes fault functions through the CPU;

the CPU module is a 32-bit microprocessor CORTEX M3 series chip of ST company, and a plurality of paths of AD sampling and DA conversion functions are integrated on the chip;

the LED driving module is an LED constant-current high-speed driving chip, and the response speed is 2 us; preferably, the three brightness of spontaneous flash, synchronous flash and external trigger snapshot flash are switched and output at any time and any moment.

Furthermore, the CPU processing module is connected with an external trigger signal module, receives a signal of the external trigger signal module, and controls the LED driving module.

Furthermore, the external trigger signal module is used for carrying out isolation input on an external synchronous flash signal and an external trigger signal through a high-speed optical coupler, and is connected with an anti-detonator on a port.

Furthermore, the external trigger signal module is a photosensitive sensor, the photosensitive sensor converts the brightness into a voltage signal, amplifies the voltage signal, inputs the voltage signal into the CPU processing module, the CPU processing module carries out AD conversion to acquire brightness data, carries out long-time statistics on illumination change conditions, and judges that the brightness is abnormal when the brightness is unchanged for a long time.

Further, the CPU processing module is connected to the ethernet through the network module. The invention also comprises a remote management platform (software platform) for carrying out large-area front-end unified management. The software platform is connected to the equipment detection module through the network module to realize: remote monitoring of equipment power, remote monitoring of equipment temperature and automatic fault alarm (alarm types: power supply abnormity, power, lamp bead and online condition). The software platform is connected to the equipment detection module and the CPU processing module through the network module to realize: adjustable power, adjustable mode (continuous light emission, stroboflash and burst flash), adjustable stroboflash brightness, adjustable stroboflash time length, adjustable stroboflash frequency, adjustable stroboflash brightness, adjustable flashing time length, adjustable duty ratio, adjustable synchronous time length and adjustable photosensitive value.

Furthermore, an Ethernet control chip is adopted, a full hardware TCP/IP protocol, a 10/100M Ethernet data link layer (MAC) and a physical layer (PHY) are integrated, a special network transformer is used for isolating and accessing the Ethernet, the network security isolation function is realized, a data port of the chip is a high-speed SPI interface, and a cpu processing module can carry out function configuration and network data exchange on the Ethernet control chip through the interface.

Furthermore, the LED light-emitting device is formed by welding a high-brightness high-power lamp bead on an aluminum substrate; the LED illuminator selects lenses with different angles for changing the light emitting angle of light rays, so that the light rays are gathered in a certain specific area or are covered in the whole range. The present application is further illustrated below:

1. a network module:

a special Ethernet control chip is selected and integrated with a full hardware TCP/IP protocol, a 10/100M Ethernet data link layer (MAC) and a physical layer (PHY), so that the stability and reliability of Ethernet communication are ensured in hardware, and the consumption of cpu processing capacity is greatly reduced.

The data port of the chip is a high-speed SPI interface, and an external CPU module can perform function configuration and network data exchange on the Ethernet control chip through the interface.

2. An LED light-emitting device:

select for use high-power lamp pearl of hi-lite, paste and weld on aluminium matter base plate, through the high-efficient heat-sinking capability of aluminium base plate, let the lamp pearl can be reliable and stable work for a long time.

3. External signal input module:

the external synchronous flashing signal and the external trigger signal are isolated and input through the high-speed optical coupler, and the signal input port can work safely and reliably in thunderstorm weather by connecting the port with the anti-detonator.

4. A detection module:

the multi-channel signal sampling circuit is used for sampling, amplifying signals through an operational amplifier, inputting the signals into an AD conversion circuit of a cpu, converting the signals into digital signals, and judging and processing fault functions through the cpu.

5. An LED driving module:

the special LED constant-current high-speed driving chip is selected, the response speed can reach 2us, and the function of instantly switching different brightness of the LED by different trigger signals is realized. Theoretically, innumerable various brightness combinations can be realized, only 3 combinations are used in the design, and the three kinds of brightness of spontaneous flashing, synchronous flashing and external triggering snapshot flashing can be switched and output at any time and any moment.

6. A CPU module:

according to the requirements of the design on the function, the data capability, the real-time processing capability and the like of the CPU, a 32-bit microprocessor CORTEX M3 series chip of ST company is selected, particularly, a plurality of paths of AD sampling and DA conversion functions are integrated on the chip, and the complexity and the cost of a design circuit are reduced. Because the hardware Ethernet chip and the high-performance CPU are selected, the complex signal processing can still be carried out during the Ethernet communication, and the Ethernet communication function and the high-speed synchronous signal processing are not interfered with each other on one CPU.

The invention adds the Ethernet networking function, realizes the remote setting of various functions of the lamp through the Ethernet, checks the state information of the receiving lamp and gives a fault alarm; the three modes of spontaneous flashing, synchronous flashing and external triggering are integrated, and the brightness of a single pulse is independently adjustable. The high-brightness flash light output device can realize that high-brightness flash light is output through external triggering to snapshot when low-brightness synchronous light supplementing video recording is carried out, and the requirement of high-speed snapshot on high brightness is met. Saving a large amount of equipment input cost and facility complexity, and simultaneously saving a large amount of electricity. The key points of the technology are as follows:

1. and the traditional light supplementing light source is developed into a network intelligent device by adopting an intelligent control technology.

2. The new energy material is adopted, and the energy utilization rate is improved through advanced packaging and manufacturing processes.

3. Adopts a multifunctional structure composite design, and integrates the functions of stroboflash (automatic frequency doubling), flash and light supplement.

4. And an industry standardized communication protocol is adopted, so that the product compatibility is improved, and all domestic mainstream systems can be compatible.

5. Through network intelligent control technology, the difficult problems of remote real-time monitoring of the state of the light supplementing equipment, light supplementing area control, urban light pollution control and the like in smart city construction are solved.

6. Energy conservation, emission reduction and carbon reduction are realized by a centralized platform time-sharing control technology.

The product of the application has the following functions:

1) automatic fault alarm: the light supplementing product is provided with a rear-end centralized management platform software system, state parameters can be inquired in real time on line, the rear-end management platform is matched, any light supplementing device at the front end breaks down, the background management platform can send an alarm to a user, the front-end fault is found and processed at the first time, and the comprehensive normal operation of the system is guaranteed.

2) Urban light pollution control: by using the intelligent light supplement system software, the problems can be comprehensively solved, and the light pollution degree is reduced to the minimum. The satisfaction of the masses is improved, and green energy is used for saving energy and reducing carbon.

3) Powerful product functions: the product adopts the multi-functional structure composite design (three kinds of modes of spontaneous sudden strain of a muscle, synchronous sudden strain of a muscle, external trigger close as an organic whole), collects road high definition video snapshot system stroboscopic lamp function, electronic police and bayonet socket snapshot flash light function, public security control and the invariable light filling lamp of environmental monitoring multi-functionally in one. Not only reduces project construction investment, but also perfects later maintenance and management. And the light supplementing light source equipment is simpler and more intelligent.

4) Excellent product compatibility: the product adopts an industry standardized communication protocol, improves product compatibility, and can be compatible with all domestic mainstream real-time monitoring systems and video snapshot systems.

Drawings

FIG. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic diagram of a power panel (LED power module, main control module, regulated power supply, external interrupt interface, E2PROM, J-LINK interface, Ethernet module, ADC sampling circuit, DAC buffer).

Fig. 3 is a control board schematic diagram (power input/output module).

Detailed Description

As shown in fig. 1, a network remote control intelligent traffic technology monitoring imaging light supplement device includes an LED light emitting device and an LED driving module connected to each other, and further includes a CPU processing module, a detection module and a power supply module; the detection module is used for detecting the states of the LED driving module and the power supply module and transmitting signals to the CPU processing module; the CPU processing module receives the signal of the detection module and controls the LED driving module, and the power supply module respectively provides power for the CPU processing module, the detection module and the LED driving module. The CPU processing module is connected with an external trigger signal module, receives a signal of the external trigger signal module and controls the LED driving module; the CPU processing module is connected with the Ethernet through the network module.

Wherein,

the detection module converts the output voltage and current of the power supply module into a voltage signal, amplifies the voltage signal, inputs the voltage signal into the CPU processing module, and the CPU processing module performs AD conversion to acquire data, calculates output power and judges whether the power supply module works normally.

The detection module is used for judging that the lamp beads are damaged when no load exists for a long time through detecting the load condition of the LED driving module, and judging that the contact of the lead wires of the lamp beads is poor when the load exists occasionally.

The detection module consists of a plurality of signal sampling circuits, samples and amplifies signals through an operational amplifier, inputs the signals into an AD conversion circuit of the CPU processing module, converts the signals into digital signals, and judges and processes fault functions through the CPU; the CPU module is a 32-bit microprocessor CORTEX M3 series chip of ST company, and a plurality of paths of AD sampling and DA conversion functions are integrated on the chip; the LED driving module is an LED constant-current high-speed driving chip, and the response speed is 2 us; preferably, the three brightness of spontaneous flash, synchronous flash and external trigger snapshot flash are switched and output at any time and any moment.

The external trigger signal module is used for carrying out isolated input on an external synchronous flash signal and an external trigger signal through a high-speed optical coupler, and is connected with an anti-detonator in parallel at a port. The external trigger signal module is a photosensitive sensor, the photosensitive sensor converts brightness into a voltage signal, amplifies the voltage signal and inputs the voltage signal into the CPU processing module, the CPU processing module carries out AD conversion to acquire brightness data, the illumination change condition is counted for a long time, and when the brightness data is unchanged for a long time, the photosensitive sensor is judged to be abnormal.

An Ethernet control chip is adopted, a full hardware TCP/IP protocol, a 10/100M Ethernet data link layer (MAC) and a physical layer (PHY) are integrated, a special network transformer is used for isolating and accessing an Ethernet, the network security isolation function is realized, a data port of the chip is a high-speed SPI interface, and a cpu processing module can perform function configuration and network data exchange on the Ethernet control chip through the interface.

Preferably, the LED light-emitting device is formed by welding a high-brightness high-power lamp bead on an aluminum substrate.

The invention uses the remote management platform to carry out large-area front-end unified management. The software platform is connected to the equipment detection module through the network module to realize: remote monitoring of equipment power, remote monitoring of equipment temperature and automatic fault alarm (alarm types: power supply abnormity, power, lamp bead and online condition). The software platform is connected to the equipment detection module and the CPU processing module through the network module to realize: adjustable power, adjustable mode (continuous light emission, stroboflash and burst flash), adjustable stroboflash brightness, adjustable stroboflash time length, adjustable stroboflash frequency, adjustable stroboflash brightness, adjustable flashing time length, adjustable duty ratio, adjustable synchronous time length and adjustable photosensitive value.

The road vehicle snapshot system is applied as follows:

in the current road vehicle snapshot system, the currently used light supplement methods are conventional light supplement methods such as LED multi-lamp-bead high-brightness light supplement, LED stroboscopic light supplement, halogen light supplement and the like. In practical application, because the brightness and angle of the light supplement method cannot be controlled, the direct vision of the driver is greatly influenced. When a vehicle passes through a light supplement area at a high speed, a driver can have 2 to 3 seconds of visual blindness, and huge hidden dangers are caused to road driving and personnel safety. Many cases have also occurred during the application process, leading to very serious consequences.

By using the light supplementing method with different optional 10-30-degree angles of brightness of the product, the potential safety hazard of regional high-brightness centralized light supplementing is firstly solved. The light supplement brightness meets the national standard light supplement requirement of the municipal street lamp, and the visual influence on a driver is small. And secondly, the brightness adjusting function can be used for finely adjusting the brightness of the light supplementing lamp according to the actual road condition and the illumination on site, so that the intact image quality of the snapshot equipment is achieved.

Public security and environment real-time monitoring application: the method for balanced supplementary lighting comprises the following steps: according to the practical application scene, the lenses with different angles are used to change the light-emitting angle of the light rays, so that the light rays are gathered in a certain specific area or are covered in the whole range.

In the current practical application, the currently used light supplement methods are conventional light supplement methods such as LED multi-lamp-bead highlight light supplement, halogen light supplement and the like. In the project implementation process, except the problem of meeting a road vehicle snapshot system, the light supplement is often too bright to influence the rest of residents, the light supplement repeatedly influences municipal lighting and the light supplement area is too concentrated, and complaints such as mosquitoes are attracted.

By using the method for balanced light supplement with the brightness of 10-30 degrees, the influence on the conditions of residents can be completely avoided. And a balanced light supplement technology is used, so that the illumination in the light supplement area is balanced and stable, and municipal lighting is not influenced. By using the brightness adjustable technology, the brightness of the light supplementing lamp is finely adjusted on the premise of solving the problem of light pollution, so that the optimal image quality of the monitoring equipment is achieved.

And the rear-end centralized management platform can inquire the state parameters on line, remotely control the light supplement brightness, forcibly close or open, and automatically remotely alarm equipment failure in real time. The outfield fault can be found and processed at the first time, and the comprehensive normal operation of the system is guaranteed.

Claims (10)

1. The utility model provides a network remote control intelligent transportation technology control formation of image light filling device, includes interconnect's LED luminescent device and LED drive module, its characterized in that: the device also comprises a CPU processing module, a detection module and a power supply module; the detection module is used for detecting the states of the LED driving module and the power supply module and transmitting signals to the CPU processing module; the CPU processing module receives the signal of the detection module and controls the LED driving module, and the power supply module respectively provides power for the CPU processing module, the detection module and the LED driving module.

2. The network remote control intelligent traffic technology monitoring imaging light supplement device according to claim 1, characterized in that: the detection module converts the output voltage and current of the power supply module into a voltage signal, amplifies the voltage signal, inputs the voltage signal into the CPU processing module, and the CPU processing module performs AD conversion to acquire data, calculates output power and judges whether the power supply module works normally.

3. The network remote control intelligent traffic technology monitoring imaging light supplement device according to claim 1, characterized in that: the detection module is used for judging that the lamp beads are damaged when no load exists for a long time through detecting the load condition of the LED driving module, and judging that the contact of the lead wires of the lamp beads is poor when the load exists occasionally.

4. The network remote control intelligent traffic technology monitoring imaging light supplement device according to any one of claims 1 to 3, wherein:

the detection module consists of a plurality of signal sampling circuits, samples and amplifies signals through an operational amplifier, inputs the signals into an AD conversion circuit of the CPU processing module, converts the signals into digital signals, and judges and processes fault functions through a CPU;

the CPU module is a 32-bit microprocessor CORTEX M3 series chip of ST company, and a plurality of paths of AD sampling and DA conversion functions are integrated on the chip;

the LED driving module is an LED constant-current high-speed driving chip, and the response speed is 2 us; preferably, the three brightness of spontaneous flash, synchronous flash and external trigger snapshot flash are switched and output at any time and any moment.

5. The network remote control intelligent traffic technology monitoring imaging light supplement device according to any one of claims 1 to 3, wherein: the CPU processing module is connected with an external trigger signal module, receives signals of the external trigger signal module and controls the LED driving module.

6. The network remote control intelligent traffic technology monitoring imaging light supplement device according to claim 4, wherein: the external trigger signal module is used for carrying out isolated input on an external synchronous flash signal and an external trigger signal through a high-speed optical coupler, and is connected with an anti-detonator in parallel at a port.

7. The network remote control intelligent traffic technology monitoring imaging light supplement device according to claim 4, wherein: the external trigger signal module is a photosensitive sensor, the photosensitive sensor converts brightness into a voltage signal, amplifies the voltage signal and inputs the voltage signal into the CPU processing module, the CPU processing module carries out AD conversion to acquire brightness data, the illumination change condition is counted for a long time, and when the brightness data is unchanged for a long time, the photosensitive abnormal condition is judged.

8. The network remote control intelligent traffic technology monitoring imaging light supplement device according to claim 1, characterized in that: the CPU processing module is connected with the Ethernet through the network module.

9. The network remote control intelligent traffic technology monitoring imaging light supplement device according to claim 8, wherein: the Ethernet control chip is adopted, a full hardware TCP/IP protocol, a 10/100M Ethernet data link layer (MAC) and a physical layer (PHY) are integrated, a special network transformer is used for isolating and accessing the Ethernet, the network security isolation function is realized, a data port of the chip is a high-speed SPI interface, and a CPU processing module can carry out function configuration and network data exchange on the Ethernet control chip through the interface.

10. The network remote control intelligent traffic technology monitoring imaging light supplement device according to any one of claims 1 to 6, wherein: the LED light-emitting device is formed by welding a high-brightness high-power lamp bead on an aluminum substrate; the LED illuminator selects lenses with different angles for changing the light emitting angle of light rays, so that the light rays are gathered in a certain specific area or are covered in the whole range.