CN107426905B - Lighting system information platform for outdoor lighting network - Google Patents

Abstract

The invention discloses a lighting system information platform for an outdoor lighting network. The device comprises a main board, an information input device, an information storage device, an information processing device, an information output device and a wireless network module, wherein the devices are in communication connection, the information input port module, the information storage port module, the information processing port module, the information output port module and the wireless network module are respectively connected with the main board through port adapters, one ends of the port adapters correspond to interfaces of corresponding modules, and the other ends of the port adapters are the same interfaces. The lighting system information platform can unify the modules with different interfaces into/out of channels, is more efficient in data transmission and can quickly replace consumed accessories.

Description

Lighting system information platform for outdoor lighting network

Technical Field

The present invention relates to a lighting system information platform for an outdoor lighting network, in particular to a lighting system information platform for an outdoor lighting network.

Background

Digital lighting technology, i.e. lighting based on semiconductor light sources such as Light Emitting Diodes (LEDs), provides a viable alternative to conventional fluorescent, HID and incandescent lamps. Recent advances in LED technology have provided efficient and robust full spectrum illumination sources capable of achieving a variety of illumination effects in many applications. Some devices embodying these sources feature a lighting module that includes one or more LEDs capable of producing different colors, such as red, green, and basket, and a controller for independently controlling the outputs of the LEDs to produce various colors and color changing lighting effects.

Outdoor lighting, such as the illumination of roads, streets, parking lots, parks, scenic spots, sidewalks and bike tracks, is typically managed by a single regulatory agency. Centralized control by a management department allows for safer, more coordinated use and reduced maintenance costs. Currently most outdoor lights operate independently or in small groups powered by a common power source to enable timed control of the lighting system of a tile on and off.

New generation lights such as LEDs have the ability to adjust the lighting intensity level and color as desired. This allows additional flexibility in saving energy, reducing light pollution, and complying with local lighting regulations. But currently no control and management system is employed for outdoor lighting that can take advantage of this flexibility.

Current management systems contain specialized software tools that are not flexible enough and require extensive training to use, which results in significant costs. In many cases, the managed outdoor lighting network may include thousands of lighting units. In some cases the lighting units may be configured in groups, but this also generally does not adequately make the deployment manageable. Especially in China, various lighting networks such as oversized cities, large cities, medium and small cities and villages are respectively arranged, and the lighting networks of different types of cities have unique characteristics, but at present, large data collection, analysis and summarization of the lighting requirements of different types of cities cannot be realized, and unique lighting requirements are formed, furthermore, the lighting requirements of different areas of the oversized cities are different, and the current lighting management system cannot refine the requirements of different areas and perform lighting management according to local conditions.

The existing systems are also inflexible in terms of energy management. For example, solar street lamps have appeared, and new energy sources have been able to make outdoor light units self-sufficient in a part of areas, but as an entire system, energy sources cannot be allocated, and the situation of automatically sensing and adjusting the energy source supply of each lighting node through the system cannot be realized, so that the effect is poor in terms of energy saving.

The existing systems are also inflexible from the standpoint of device configuration, operation, and performance. The existing small number of interfaces of the control platform can only be controlled in a hundred flowers and are put together, unified standards are not realized, and a large number of lighting units, such as tens of thousands, can be deployed in the whole city under the condition of an outdoor lighting network. Currently, there is no convenient way to reconfigure the performance of a lighting system to meet new performance and operational requirements, and there is currently no convenient way to quickly replace consumable parts, resulting in inefficient replacement of the consumable parts.

Disclosure of Invention

In view of the above problems, the present invention provides an intelligent outdoor lighting network system, which has the functions of collecting and summarizing data by using an intelligent lighting unit, further generating lighting requirements according to a region range, adaptively scientifically adjusting energy supply and lighting brightness according to big data statistics and current weather, environment, traffic and other conditions, and unifying input/output channels of modules with different interfaces, so that data transmission is more efficient and replacement of lost parts is more convenient.

The invention relates to an intelligent outdoor lighting network system, which comprises a central control device, wherein a plurality of lighting units and a plurality of lighting unit control devices are arranged in the system.

The lighting units can be divided into a plurality of lighting patches, and each lighting patch is internally provided with at least one lighting unit which is provided with a patch control node, and the patch control node can control the behavior of each lighting unit control device in the patch; a communication system is also included that operably connects the central control device, the tile control node, and each lighting unit.

The central control device may receive instructions from an operator to control the behavior of the tile control nodes, and further, to control the behavior of each lighting unit control device in the system.

At least one memory is arranged in each lighting area, the memory is connected with a communication system, and each lighting unit is provided with a sensing unit; the central control device defines clusters; and may collect sensing unit data and associate sensing unit data information with the clusters and require corresponding storage of the data.

When the stored data of the clusters meet the screening requirement, the central control device 1 establishes a lighting requirement list of the clusters, and realizes the lighting requirement in the lighting requirement list according to the sensing unit data.

Further, the central control device may further define a tile cluster according to the position data of the different lighting tiles; and the data information of the sensing unit can be associated with the patch cluster, and the data is required to be correspondingly stored, when the stored data of the patch cluster meets the screening requirement, a lighting requirement list of the patch cluster is established, and the lighting requirement in the lighting requirement list is realized according to the data of the sensing unit.

The lighting units may be connected to a communication system in the intelligent outdoor lighting network system through a power system, or may be connected to the internet through network receiving/transmitting means provided on each lighting unit and connected to the communication system.

The communication interface of the communication system may be transmitted using protocol channels including, but not limited to, DSRC, 3G, LTE, WIFI, RFID.

The lighting unit control device 105 on each lighting unit may be an electrical signal transmission controller that uses electrical signals to control the lighting units based on signals sent by the central control device.

In order to meet the illumination requirements in the range of different illumination units, the sensing unit can receive the environmental information in the range of the illumination units, including temperature, humidity, visibility and sunlight brightness; object information within the range of the lighting unit may also be received, including object volume, speed, motion trajectory and direction of motion.

For example, the sensing unit may be a set of pressure sensors provided on the road surface, the pressure sensors being provided on the motor vehicle lane and the non-motor vehicle lane with a space therebetween, respectively, and being provided on the motor vehicle lane with a space therebetween of 300-500 m and on the non-motor vehicle lane with a space therebetween of 10-50 m due to the difference in speed between the pedestrian and the automobile. When the sensor senses the change of the ground pressure and then judges that the automobile/pedestrian is detected by the central control equipment, the central control equipment can send out a command to control the lighting unit in front of the central control equipment to be started or increase the brightness.

The system also comprises a power supply system, wherein a power supply line A and a power supply line B of the power controller are respectively arranged in the power supply system, and the two power supply lines can be municipal power supply lines and also can contain new energy supply lines, and the new energy sources comprise but are not limited to solar energy, geothermal energy, wind energy and tidal energy. The circuit may be an AC circuit or a DC circuit.

The power supply system comprises a central controller which is connected with the power controller of the power supply line A, B through a communication network and can operate to automatically or manually control the power controller through instructions to adjust each lighting unit to be powered by the power supply line A or the power supply line B

Further, each lighting unit may include a power generation device and a power generation device controller, and the power generation device may be a conventional power generation device or a new energy power generation device, for example, a solar panel, a geothermal generator, a wind energy generator, or the like. Be provided with sensor and energy memory on the illumination node, the new energy intensity of sensor response can be used to the sensor, and power generation facility controller can be with the new energy intensity of sensor response and preset value contrast, and when the condition satisfied the electricity generation demand, the controller will open the electricity generation mode voluntarily to energy memory input energy.

The central controller is further capable of identifying availability of new energy power in each lighting unit and adjusting the redistribution of the power supply lines to extend on/off of at least one power generation device of the plurality of lighting units, and light availability of at least one of the plurality of lighting units

The central controller can receive the sensor signals on each lighting node and control the new energy power controller to change the charging/discharging state of the energy storage device according to the new energy intensity of each lighting node.

The intelligent outdoor lighting network system also comprises an information system platform, which comprises a main board, an information input device 402, an information storage device and an information output device, wherein the information input device is integrated with a central controller in the same system information platform and is provided with a communication connection, the information input device is provided with an information input port module, the information storage device is provided with an information storage port module, the central controller is provided with an information processing port module, and the information output device is provided with an information output port module; the wireless network module capable of accessing the Internet to read cloud information and instructions is also concentrated in the platform, one end of the port adapter of each module corresponds to the interface of the corresponding module, and the other end of the port adapter is the same interface.

The port adapter can realize plug and play, and can realize the information input/output between the connected module and the mainboard, even if different product modules are adopted, the standardized unification of the interfaces of the input module and the output module can be ensured, the port adapter is externally wrapped with a flexible sealing sleeve for ensuring sealing and waterproofing, the sealing sleeve is internally provided with a clamping groove in a ring, and the adapter can be detachably placed in the clamping groove. The material of the flexible sealing sleeve can be rubber, resin, synthetic resin or other organic materials meeting the electrical standard.

In order to ensure the stable operation of the platform, a signal noise reduction device and an antistatic device are arranged in the system information platform, a sealing groove is arranged on the inner wall of the system information platform, a sealing ring is arranged in the sealing groove, a diversion trench is arranged on the surface of the inner wall, and a diversion hole is formed in the bottom of the casing.

The intelligent outdoor lighting network system is provided with a plurality of lighting units, each lighting unit is provided with at least one LED light source, a lighting source controller, a communication system which is electrically communicated with the controller and can be connected to the Internet, and a sensing system which is electrically communicated with the controller;

the sensing system can receive object information in the range of the outdoor lighting unit, and when the sensing system senses a moving object, the sensing system sends the moving information of the moving object to the communication system;

the sensing system may receive environmental information within the range of the outdoor lighting unit including, but not limited to, temperature, humidity, visibility, brightness, rainfall, atmospheric pollution index;

the communication system can transmit information received by the sensing system to the cloud end through the Internet, receive control instructions from the central control equipment from the cloud end, and adjust the illumination state of the LED light source through the illumination light source controller, wherein the illumination state comprises, but is not limited to, brightness and color.

The lighting unit is provided with a mobile communication device signal receiving/transmitting device which can transmit the mobile communication device signal to the controller.

The LED light source controller on the lighting unit is connected with the power supply line A and the power supply line B, and comprises a switch for switching the power supply line of the LED light source before the power supply line A and the power supply line B.

The lighting unit can be provided with a power generation device, a power generation device controller, an energy storage device and an energy storage control device, and the power generation device can be a new energy power generation device; the system also comprises a sensor which can sense the energy intensity of the new energy source and send a signal of the energy intensity of the new energy source to the communication system through the illumination light source controller.

The lighting unit control device on the lighting unit may be an electrical signal transmission controller that controls the brightness of the lighting unit with an electrical signal in accordance with a signal sent by the central control device.

And the sensing unit of the lighting unit on the non-motor vehicle lane can be provided with a Bluetooth sensor, and can sense a Bluetooth signal of a mobile phone of a pedestrian, so that the lighting mode in front of the pedestrian can be judged and adjusted in advance.

To avoid lightning damage, the top of each lighting unit may be provided with a lightning protection device.

The lighting units in personnel-intensive areas such as bus stops, business circles and the like can comprise WIFI signal transmitting devices. Wifi hotspots may be provided to the node scope.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention, without limitation to the invention.

Fig. 1 is a block diagram of an exemplary embodiment of a lighting network of the present invention.

Fig. 2 is a block diagram of an exemplary embodiment of a lighting unit in a lighting network of the present invention.

Fig. 3 is a block diagram of an exemplary embodiment of the invention illuminating a network information flow.

Fig. 4 is a block diagram of an exemplary embodiment of a power supply system of the present invention.

Fig. 5 is a block diagram of an exemplary embodiment of a power supply portion in a lighting unit of the present invention.

Fig. 6 is a block diagram of an exemplary embodiment of a power supply, generation system in a lighting unit of the present invention.

FIG. 7 is a block diagram of an exemplary embodiment of an information system platform of the present invention.

FIG. 8 is a diagram of an exemplary embodiment of an information system platform of the present invention.

Fig. 9 is a diagram of an exemplary embodiment of a port adapter according to the present invention.

Detailed Description

An intelligent outdoor lighting network system of the present invention includes a central control device 101, a plurality of lighting units 103 in the system, and a plurality of lighting unit control devices 105;

the plurality of lighting units can be divided into a plurality of lighting tiles, and each lighting tile is internally provided with a tile control node 102 on at least one lighting unit, and the tile control node can control the behavior of each lighting unit control device 105 in the tile; also included is a communication system operatively connecting the central control device 101, the tile control node 102, and each lighting unit 103.

The central control device 101 may receive instructions from an operator to control the behavior of the tile control node 102 and further to control the behavior of each lighting unit control device 105 in the system.

At least one memory 104 is arranged in each lighting area, the memory 104 is connected with a communication system, and each lighting unit 103 is provided with a sensing unit 106; the central control apparatus 101 defines clusters; and may collect sensing element 106 data and associate sensing element data information with the clusters and require corresponding storage of the data.

When the stored data of the clusters meet the screening requirements, the central control device 101 establishes a lighting requirement list of the clusters, and realizes the lighting requirements in the lighting requirement list according to the sensing unit data.

Further, the central control apparatus 101 may further define a patch cluster according to the position data of different lighting patches; and can associate the data information of the sensing unit 106 with the tile cluster and require corresponding data storage, and when the stored data of the tile cluster meets the screening requirement, establish a lighting requirement list of the tile cluster, and realize the lighting requirement in the lighting requirement list according to the sensing unit data.

The lighting units may be connected to a communication system in the intelligent outdoor lighting network system through a power system, or may be connected to the internet through network receiving/transmitting means provided on each lighting unit and connected to the communication system.

The communication interface of the communication system may be transmitted using protocol channels including, but not limited to, DSRC, 3G, LTE, WIFI, RFID.

The lighting unit control device 105 on each lighting unit may be an electrical signal transmission controller that controls the lighting units 103 with electrical signals in accordance with signals sent by the central control device 101.

To meet the lighting requirements within the range of different lighting units, the sensing unit 106 may receive environmental information within the range of the lighting unit 103 where it is located, including temperature, humidity, visibility, sunlight brightness; object information within the range of the lighting unit 103 may also be received, including object volume, speed, motion trajectory and direction of motion.

For example, the sensing unit 106 may be a set of pressure sensors disposed on the road surface, the pressure sensors being disposed on the motorway and the non-motorway with a spacing of 300-500 meters on the motorway and 10-50 meters on the non-motorway, respectively, due to the different speeds of the pedestrian and the car. When the sensor senses the change of the ground pressure and then the central control device judges that the vehicle/pedestrian is detected, the central control device 101 can send out a command to control the lighting unit in front of the central control device to turn on or increase the brightness.

The system also comprises a power supply system, wherein a power supply line A and a power supply line B of the power controller 202 are respectively arranged in the power supply system, and the two power supply lines can be municipal power supply lines and also can contain new energy supply lines, and the new energy sources comprise but are not limited to solar energy, geothermal energy, wind energy and tidal energy. The circuit may be an AC circuit or a DC circuit.

The power supply system comprises a central controller 201 connected to the power controller 202 of the power supply line A, B via a communication network and operable to automatically or manually control the power controller 202 by instruction to adjust each lighting unit 103 to be powered by the power supply line a or by the power supply line B

Further, each lighting unit 103 may include a power generation device 203 and a power generation device controller 204, where the power generation device 203 may be a conventional power generation device or a new energy power generation device, such as a solar panel, a geothermal generator, a wind energy generator, and so on. Be provided with sensor 205 and energy storage device 206 on the illumination node, sensor 205 can respond to new forms of energy intensity, and power generation device controller 204 can compare the new forms of energy intensity that sensor 205 responded to with the default, and when the condition satisfied the electricity generation demand, controller 204 will open the electricity generation mode voluntarily to energy storage device 203 input energy.

The central controller 201 is further capable of identifying the availability of new energy power in each lighting unit 103 and adjusting the redistribution of the power supply lines to extend the on/off of at least one power generation device 203 of the plurality of lighting units 103 and the light availability of at least one of the plurality of lighting units 103

The central controller 201 can receive the signals from the sensors 205 on each lighting node 103, and control the new energy power controller 202 to change the charging/discharging state of the energy storage device 203 according to the new energy intensity of each lighting node.

The intelligent outdoor lighting network system further comprises an information system platform, which comprises a main board 401, an information input device 402, an information storage device 403 and an information output device 404, wherein the information input device is provided with an information input port module, the information storage device is provided with an information storage port module, the central controller is provided with an information processing port module, and the information output device 404 is integrated in the same system information platform and is provided with an information output port module; the wireless network module 406, which can access the internet to read cloud information and instructions, is also centralized in this platform, and one end of the port adapter 407 of each module corresponds to the interface of the corresponding module, and the other end is the same interface. An example of this interface is shown in fig. 8, where multiple port adapters 407 have port a 408 at one end, ensuring the need for quick replacement of the module components, and different ports corresponding to the modules at the other end: port B409, port C410, and port D411. In another example, the same port may be used at the module end and a different port may be used at the connection section with the motherboard, as desired.

The port adapter can realize plug and play, and can realize the information input/output between the module of connection and the mainboard, even like this adopts different product modules, also can guarantee that the interface standardization of input, output module is unified, for guaranteeing sealedly and waterproof, port adapter outside parcel flexible seal cover 431, seal cover inner ring is equipped with draw-in groove 432, and the adapter can detachably place in the draw-in groove. The material of the flexible sealing sleeve can be rubber, resin, synthetic resin or other organic materials meeting the electrical standard.

In order to ensure the stable operation of the platform, a signal noise reduction device 421 and an antistatic device 422 are arranged in the system information platform, a sealing groove is arranged on the inner wall of the system information platform, a sealing ring is arranged in the sealing groove, a diversion trench is arranged on the surface of the inner wall, and a diversion hole is formed in the bottom of the casing.

The intelligent outdoor lighting network system is provided with a plurality of lighting units 103, wherein each lighting unit is provided with at least one LED light source 301, a lighting source controller 302, an internet-accessible communication system 303 which is in electric communication with the controller 302, and a sensing system 304 which is in electric communication with the controller;

the sensing system 304 may receive object information within the range of the outdoor lighting unit, and when the sensing system 304 senses a moving object, the sensing system 304 transmits the moving information of the moving object to the communication system 303;

the sensing system 304 may receive environmental information within the outdoor lighting unit including, but not limited to, temperature, humidity, visibility, brightness, rainfall, atmospheric pollution index;

the communication system 303 may transmit the information received by the sensing system 304 to the cloud end through the internet, and receive a control instruction from the central control device 101 from the cloud end, and adjust the illumination state of the LED light source 301 through the illumination light source controller 302, where the illumination state includes, but is not limited to, brightness and color.

The lighting unit is provided with a mobile communication device signal receiving/transmitting device which can transmit the mobile communication device signal to the controller.

The LED light source controller on the lighting unit is connected to supply line a, supply line B and comprises a switch 305 for switching the LED light source supply line before supply line a and supply line B.

The lighting unit may be provided with a power generation device 203, a power generation device controller 204, an energy storage device 206 and an energy storage control device 207, and the power generation device may be a new energy power generation device; also included is a sensor 205 that is capable of sensing the new energy intensity and transmitting a new energy intensity signal to the communication system 303 via the illumination source controller 302.

The lighting unit control device 105 on the lighting unit 103 may be an electrical signal transmission controller that controls the brightness of the lighting unit with an electrical signal in accordance with the signal sent by the central control device 101.

The sensing unit 106 of the lighting unit 103 on the non-motor vehicle lane can be provided with a near field communication sensor, and the lighting mode in front of the pedestrian can be judged and adjusted in advance by sensing the mobile electronic equipment of the pedestrian.

To avoid lightning damage, the top of each lighting unit 103 may be provided with lightning protection means.

The lighting unit 103 in a personnel-intensive area of a bus stop, business district or the like may comprise near field communication transmitting means. Network hotspots may be provided to the node-scope.

Further, the lighting unit 103 may include a car navigation signal receiving device, a bluetooth receiving device, and an NB-IoT base station.

Although the embodiments of the present invention are described above, the embodiments are merely used to facilitate understanding of the technical solutions of the present invention, and are not intended to limit the present invention. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is to be determined by the appended claims.

Claims (3)

1. A lighting system information platform for an outdoor lighting network, comprising: a main board (401);

an information input device (402), an information storage device (403), an information processing device, and an information output device (404); the device is provided with a communication connection, wherein the information input device is provided with an information input port module, the information storage device is provided with an information storage port module, the information processing device is provided with an information processing port module, the information output device is provided with an information output port module, the information processing module comprises sensors which are arranged on the ground at intervals, the sensors obtain the position and the speed of a vehicle or a pedestrian and send the position and the speed to the information processing module, and the information processing module obtains the travelling direction and the real-time position of the vehicle or the pedestrian according to the position and the speed and adjusts a lamp which is positioned in front of the travelling direction of the vehicle or the pedestrian;

the wireless network module (406) can access the Internet to read cloud information and instructions;

the information input port module, the information storage port module, the information processing port module, the information output port module and the wireless network module are respectively connected with the main board through port adapters (407);

one end of the port adapter (407) of each module corresponds to the interface of the corresponding module, and the other end is the same interface;

the port adapter (407) can realize plug and play and can realize information input/output between a connected module and a main board;

also comprises a lightning protection device;

the platform also comprises an antistatic device;

the platform also comprises a signal noise reduction device;

the port adapter (407) is wrapped with a flexible sealing sleeve, a clamping groove (432) is formed in the inner ring of the sealing sleeve, and the port adapter can be detachably placed in the clamping groove.

2. The lighting system information platform for an outdoor lighting network of claim 1, further comprising a housing, wherein the housing has a sealing groove in an inner wall thereof, a sealing ring is disposed in the sealing groove, a diversion trench is disposed on a surface of the inner wall, and a diversion hole is disposed at a bottom of the housing.

3. The lighting system information platform for an outdoor lighting network of claim 2, further comprising an NB-IOT chip.