WO2022041087A1 - 一种多功能模块化智慧灯杆及其实现方法 - Google Patents
一种多功能模块化智慧灯杆及其实现方法 Download PDFInfo
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- WO2022041087A1 WO2022041087A1 PCT/CN2020/111966 CN2020111966W WO2022041087A1 WO 2022041087 A1 WO2022041087 A1 WO 2022041087A1 CN 2020111966 W CN2020111966 W CN 2020111966W WO 2022041087 A1 WO2022041087 A1 WO 2022041087A1
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- WIPO (PCT)
- Prior art keywords
- module
- light pole
- lamp
- power supply
- smart
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S8/00—Lighting devices intended for fixed installation
- F21S8/08—Lighting devices intended for fixed installation with a standard
- F21S8/085—Lighting devices intended for fixed installation with a standard of high-built type, e.g. street light
- F21S8/086—Lighting devices intended for fixed installation with a standard of high-built type, e.g. street light with lighting device attached sideways of the standard, e.g. for roads and highways
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V23/00—Arrangement of electric circuit elements in or on lighting devices
- F21V23/003—Arrangement of electric circuit elements in or on lighting devices the elements being electronics drivers or controllers for operating the light source, e.g. for a LED array
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V23/00—Arrangement of electric circuit elements in or on lighting devices
- F21V23/04—Arrangement of electric circuit elements in or on lighting devices the elements being switches
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V23/00—Arrangement of electric circuit elements in or on lighting devices
- F21V23/06—Arrangement of electric circuit elements in or on lighting devices the elements being coupling devices, e.g. connectors
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V33/00—Structural combinations of lighting devices with other articles, not otherwise provided for
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/105—Controlling the light source in response to determined parameters
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21W—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
- F21W2131/00—Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
- F21W2131/10—Outdoor lighting
- F21W2131/103—Outdoor lighting of streets or roads
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Definitions
- the invention relates to the technical field of light control based on 4G/5G Internet of Things communication, in particular to a multifunctional modular smart light pole and a realization method thereof.
- the smart light pole can integrate a variety of equipment, reduce the number of poles and save resources.
- Smart light pole refers to the application of advanced, efficient and reliable power line carrier communication technology and 4G/5G, LoRa, NB-lot and other low-power IoT communication technologies, etc.
- 4G/5G is a mobile communication network, which is a cellular mobile Communication technology, whose performance goals are high data rate, reduced delay, energy saving, cost reduction, increased system capacity and large-scale equipment connection, realizes the remote centralized control and management of street lamps, smart street lamps have the ability to automatically adjust the brightness according to the traffic flow.
- remote lighting control, active fault alarm, lamp cable anti-theft, remote meter reading and other functions can greatly save power resources, improve the level of public lighting management, and save maintenance costs.
- the smart light poles used are mainly to save power resources. They usually have the functions of automatic brightness adjustment and remote lighting control during use. Other functions are not required well, and the help provided to nearby people is limited. Smart light poles The use demand effect is not good and cannot meet the use demand. Therefore, there is an urgent need for a multifunctional modular smart light pole and its realization method to solve these problems.
- the purpose of the present invention is to provide a multifunctional modular smart light pole and its realization method, so as to solve the problem that the above-mentioned background technology provides limited help to nearby people, and the use demand of the smart light pole is not effective and cannot meet the use demand. question.
- a multifunctional modular smart light pole comprising a light pole, an intelligent power supply module, a light pole controller module, an environment monitoring module, a light pole charging pile module, electrical equipment, Emergency rescue module, light pole display module, light pole communication gateway module and communication network platform
- the intelligent power supply module is provided with an intelligent AC power supply module and an intelligent DC power supply module
- the electrical equipment is provided with an AC electrical equipment and a DC power supply Electrical equipment
- the intelligent AC power module and the intelligent DC power module are respectively electrically connected to the AC electrical equipment and the DC electrical equipment, the intelligent power module, the lamp pole controller module, the environment monitoring module, the lamp pole charging pile module.
- the emergency rescue module and the light pole display module are all arranged inside the light pole, and the intelligent power supply module, the light pole controller module, the environmental monitoring module, the light pole charging pile module, the emergency rescue module and the light pole display module are all connected with the light pole.
- the communication network platforms are all connected with bidirectional data through the light pole communication gateway module, and the intelligent AC power supply module and the intelligent DC power supply module both include current, voltage power detection and overcurrent and overvoltage protection.
- the lamp pole controller module includes timing switch control, dimming control and lamp head operating state monitoring;
- the timing switch control is used for timing switch control and management of the two lamp heads
- the dimming control is used to adjust and manage the light brightness of the two lamp heads
- Lamp head running status monitoring is used to monitor the running status of two lamp heads.
- the environment monitoring module includes a temperature and humidity sensor, an atmospheric pressure sensor, a PM2.5 sensor, an ultraviolet sensor, a wind speed sensor and a noise sensor;
- the temperature and humidity sensor is used to detect the temperature and humidity in the surrounding air
- the atmospheric pressure sensor is used to detect the atmospheric pressure of the air
- the PM2.5 sensor is used to detect the concentration of suspended particulate matter in the air
- the ultraviolet sensor is used to detect the intensity of ultraviolet rays irradiated into the air;
- the wind speed sensor is used to detect the flow speed and direction of the airflow in the surrounding air
- the noise sensor is used to detect the decibel level of the sound in the surrounding environment.
- the light pole charging pile module adopts a highly economical design principle to achieve a high degree of integration of the charging and metering functions of new energy electric vehicles, and the emergency rescue module is used to provide a one-key rescue function.
- the emergency rescue module is used to provide a one-key rescue function. Pedestrians near the light pole In the event of an emergency, you can call for help with just one click.
- the light pole display module is used for data collection and sorting of various light pole equipment, and forwarded to the cloud platform, and the communication network platform connects 5G/4G, WiFi, LoRa, NB and other communication base stations with the light pole Integrate to build a spatiotemporal IoT data communication platform.
- a charging pile is provided on one side of the light pole, and the charging pile and the light pole are arranged in an integrated structure, a mounting seat is provided below the light pole, and the mounting seat and the light pole are connected by screws, and the light One side of the pole is provided with a multimedia information board, both sides of the light pole are provided with mounting brackets, and both the mounting bracket and the multimedia information board are connected with the light pole by screws.
- one side of the light pole is provided with a louver box
- the other side of the light pole is provided with a monitoring camera
- both the louver box and the monitoring camera are connected with the mounting frame by screws
- a louver box is arranged above the light pole
- the lamp holder is connected with the lamp post by screws, and a lighting lamp is arranged below the lamp holder, and the lighting lamp and the lamp holder are connected by screws.
- a charging gun is provided on one side of the charging pile, and the charging gun is tenon-jointed with the charging pile, a rescue button is provided above the charging gun, and a rain shield is provided above the rescue button to protect against rain.
- the board and the rescue button are connected with the charging pile by screws, the multimedia information board is set at a position of 2M to 3M above the ground, a display screen and a buzzer are arranged on one side of the multimedia information board, and the display screen And the buzzer is connected with the multimedia information board by screws.
- a method for realizing a multifunctional modular smart light pole comprising the following steps:
- Step 1 Use the smart AC power module and smart DC power module to supply power and manage the electrical equipment in the light pole, detect the current and voltage power of the electrical equipment, and conduct timely when the current and voltage power are too large. Over-current and over-voltage protection, monitor the power consumption status of each device, and can forward the monitoring data to the cloud platform for operation plan management, so as to realize the functional requirements of timing startup and shutdown and remote startup and shutdown;
- Step 2 The lamp pole controller module can control and manage the two lamp heads. With the help of the timing switch control, the two lamp heads can be switched on and off.
- the dimming control can adjust the color and brightness of the light according to the needs, and monitor the operation status of the lamp heads.
- the running status of the lamp head can be monitored and the data of other devices in the lamp pole can be collected and forwarded to the cloud platform through the network port, which is convenient for the control and management of the lamp head;
- Step 3 The temperature and humidity sensor, atmospheric pressure sensor, PM2.5 sensor, ultraviolet sensor, wind speed sensor and noise sensor in the environmental monitoring module can measure the temperature and humidity, atmospheric pressure, PM2.5 content, ultraviolet intensity, and wind speed in the air respectively. Wind direction and environmental noise are detected, and the collected data is forwarded to the cloud platform through the network port, so as to monitor the surrounding environment;
- Step 4 When the battery life of the new energy electric vehicle is insufficient, the new energy electric vehicle can be charged with the help of the lamp pole charging pile module;
- Step 5 When a pedestrian near the light pole encounters an emergency, the emergency rescue module can be triggered to call for help by pressing the rescue button, thereby realizing the one-key rescue function;
- Step 6 With the help of the light pole display module, the multimedia information display function, advertisement playback and information release can be performed, which can improve the efficiency of information dissemination and realize the function of information display and transmission of the smart light pole.
- the device of the invention can supply power and manage the electrical equipment inside the light pole, perform current and voltage power detection on the electrical equipment, and can also check the power consumption of each equipment.
- the power status is monitored, and the overcurrent and overvoltage protection functions are performed in time when the power is abnormal, which protects the electrical equipment, and can start and close the electrical equipment regularly, and remotely start and close the trip plan management. It solves the problem that power supply and management of electrical equipment can be performed, and the use safety of electrical equipment is improved to ensure stable use.
- the device of the invention can control and manage the two-way lamp head through the setting of the lamp-pole controller module, so as to adjust the working state of the two-way lamp head, and can forward the collected data to the cloud platform. It solves the problem of timing switch control, dimming control, and monitoring of the running state of the two lamp heads.
- the device of the invention can detect the temperature and humidity, atmospheric pressure, PM2.5, ultraviolet intensity, wind speed and direction and environmental noise in the air through the setting of the environmental monitoring module and the light pole display module, and forward the collected data.
- the light pole display module can perform multimedia information display function. It solves the problem that the working state around the smart light pole can be detected, and the multi-functional requirements of the smart light pole are realized.
- the device of the invention can charge new energy electric vehicles by means of the lamp pole charging pile module and the emergency rescue module, and the lamp pole charging pile module adopts a highly economical design and does not take up too much space.
- the emergency rescue module can provide a one-key rescue function for pedestrians near the light pole in an emergency. It solves the problem of effectively increasing the battery life of new energy electric vehicles and providing one-key assistance to nearby pedestrians.
- FIG. 1 is a schematic diagram of the overall structure of a smart light pole of the present invention.
- Fig. 2 is the overall principle schematic diagram of the present invention
- FIG. 3 is a schematic diagram of the principle connection between the intelligent power supply module and the electrical equipment of the present invention.
- Fig. 4 is the principle schematic diagram of the environmental monitoring module of the present invention.
- FIG. 5 is a schematic diagram of the principle of the light pole controller module of the present invention.
- a multi-functional modular smart light pole including a light pole 1, an intelligent power supply module 15, a light pole controller module 17, an environment monitoring module 18, a light pole
- the electrical equipment 20 is provided with an AC electrical equipment 24 and a DC electrical equipment 25, and the intelligent AC power module 22 and the intelligent DC power module 23 are respectively electrically connected to the AC electrical equipment 24 and the DC electrical equipment 25.
- the power supply module 15 , the light pole controller module 17 , the environment monitoring module 18 , the light pole charging pile module 36 , the emergency rescue module 21 and the light pole display screen module 16 are all arranged inside the light pole 1 , and the intelligent power supply module 15 , the light pole The pole controller module 17 , the environment monitoring module 18 , the lamp pole charging pile module 36 , the emergency rescue module 21 and the lamp pole display module 16 are all connected with the communication network platform 35 through the lamp pole communication gateway module 19 two-way data connection, intelligent The AC power supply module 22 and the intelligent DC power supply module 23 both include current, voltage and power detection and overcurrent and overvoltage protection.
- the intelligent power supply module 15 can monitor the power consumption status of the electrical equipment 20 .
- the intelligent power module 15 can ensure the electrical equipment inside the light pole 1.
- the power supply 20 is normal, which improves the safety performance of the electrical equipment 20 in use.
- the light pole controller module 17 includes a timing switch control 32, a dimming control 33 and a lamp head operating state monitoring 34;
- the timing switch control 32 is used to manage the timing switch control 32 for the two lamp heads;
- the dimming control 33 is used to adjust, control and manage the light brightness of the two lamp heads;
- the lamp head running state monitoring 34 is used to monitor the running state of the two lamp caps.
- the environment monitoring module 18 includes a temperature and humidity sensor 26, an atmospheric pressure sensor 27, a PM2.5 sensor 28, an ultraviolet sensor 29, a wind speed sensor 30 and a noise sensor 31;
- the temperature and humidity sensor 26 is used to detect the temperature and humidity in the surrounding air
- the atmospheric pressure sensor 27 is used to detect the atmospheric pressure of the air
- the PM2.5 sensor 28 is used to detect the concentration of suspended particulate matter in the air
- the ultraviolet sensor 29 is used to detect the intensity of ultraviolet rays irradiated into the air;
- the wind speed sensor 30 is used to detect the flow velocity and flow direction of the airflow in the surrounding air;
- the noise sensor 31 is used to detect the decibel level of the sound in the surrounding environment.
- the light pole charging pile module 36 adopts the principle of highly economical design, which realizes the high integration of the charging and metering functions of new energy electric vehicles.
- the emergency rescue module 21 is used to provide a one-key rescue function. In an emergency, you can call for help with just one click.
- the light pole display module 16 is used for data collection and sorting of various light pole equipment, and forwards it to the cloud platform, and the communication network platform 35 integrates 5G/4G, WiFi, LoRa, NB and other communication base stations with the light pole to construct Space-time IoT data communication platform.
- a charging pile 3 is provided on one side of the light pole 1, and the charging pile 3 and the light pole 1 are arranged in an integrated structure, and a mounting seat 2 is provided below the light pole 1, and the mounting seat 2 and the light pole 1 are connected by screws.
- One side of the light pole 1 is provided with a multimedia information board 7 , and both sides of the light pole 1 are provided with mounting brackets 11 , and both the mounting bracket 11 and the multimedia information board 7 are connected with the light pole 1 by screws.
- one side of the light pole 1 is provided with a louver box 10
- the other side of the light pole 1 is provided with a monitoring camera 12
- the louver box 10 and the monitoring camera 12 are both connected with the mounting frame 11 by screws
- the upper part of the light pole 1 is provided with
- a charging gun 4 is provided on one side of the charging pile 3, and the charging gun 4 is mortally connected to the charging pile 3.
- a rescue button 6 is provided above the charging gun 4, and a rain shield 5 is provided above the rescue button 6.
- the rain board 5 and the rescue button 6 are connected with the charging pile 3 by screws.
- the multimedia information board 7 is set at a position where the height from the ground is 2M to 3M.
- One side of the multimedia information board 7 is provided with a display screen 8 and a buzzer 9 , and the display screen 8 and the buzzer 9 are connected with the multimedia information board 7 by screws.
- a method for realizing a multifunctional modular smart light pole comprising the following steps:
- Step 1 Use the smart AC power module 22 and the smart DC power module 23 to supply power and manage the electrical equipment 20 in the light pole, and detect the current and voltage power of the electrical equipment 20. It can perform overcurrent and overvoltage protection in time when it is large, and monitor the power consumption status of each device, and can forward the monitoring data to the cloud platform for operation plan management function, so as to realize timing startup and shutdown, and remote startup and shutdown. functional requirements;
- Step 2 The light pole controller module 17 can control and manage the two-way lamp head, and the two-way lamp head can be switched by the timing switch control 32.
- the dimming control 33 can adjust the light color and brightness according to the needs, and the lamp head can run
- the status monitoring 34 monitors the running status of the lamp head and can collect the data of other devices in the lamp pole and forward it to the cloud platform through the network port, which is convenient for the control and management of the lamp head;
- Step 3 The temperature and humidity sensor 26, the atmospheric pressure sensor 27, the PM2.5 sensor 28, the ultraviolet sensor 29, the wind speed sensor 30 and the noise sensor 31 in the environmental monitoring module 18 can respectively measure the temperature and humidity in the air, atmospheric pressure, PM2. 5.
- the content, ultraviolet intensity, wind speed and direction and environmental noise are detected, and the collected data is forwarded to the cloud platform through the network port, so as to realize the monitoring of the surrounding environment;
- Step 4 When the battery life of the new energy electric vehicle is insufficient, the new energy electric vehicle can be charged with the help of the lamp pole charging pile module 36;
- Step 5 When a pedestrian near the light pole encounters an emergency, the emergency rescue module 21 can be triggered to call for help by pressing the rescue button 6, thereby realizing the one-key rescue function;
- Step 6 With the help of the light pole display module 16, the multimedia information display function can be performed, and advertisement playback and information release can be performed, which can improve the information dissemination efficiency and realize the function of smart light pole information display and transmission.
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Abstract
一种多功能模块化智慧灯杆及其实现方法,多功能模块化智慧灯杆包括灯杆(1)、智能电源模块(15)、灯杆控制器模块(17)、环境监测模块(18)、灯杆充电桩模块(36)、用电设备(20)、应急救助模块(21)、灯杆显示屏模块(16)、灯杆通信网关模块(19)和通信网络平台(35)。智能电源模块(15)设置有智能交流电源模块(22)和智能直流电源模块(23)。用电设备(20)设置有交流用电设备(24)和直流用电设备(25),且智能交流电源模块(22)和智能直流电源模块(23)分别与交流用电设备(24)和直流用电设备(25)电性连接。智能电源模块(15)、灯杆控制器模块(17)、环境监测模块(18)、灯杆充电桩模块(36)、应急救助模块(21)和灯杆显示屏模块(16)均设置在灯杆(1)的内部,且智能电源模块(15)、灯杆控制器模块(17)、环境监测模块(18)、灯杆充电桩模块(36)、应急救助模块(21)和灯杆显示屏模块(16)均与通信网络平台(35)之间均通过灯杆通信网关模块(19)双向数据连接。智能交流电源模块(22)和智能直流电源模块(23)均包括电流、电压功率检测和过流、过压保护。
Description
本发明涉及基于4G/5G物联网通讯灯控技术领域,具体为一种多功能模块化智慧灯杆及其实现方法。
智慧灯杆作为一个新生事物,能集成多种设备,减少杆件的数量,节约资源。智慧灯杆是指通过应用先进、高效、可靠的电力线载波通信技术和4G/5G、LoRa、NB-lot等低功耗物联网通讯技术等,4G/5G即移动通信网络,是一种蜂窝移动通信技术,其性能目标是高数据速率、减少延迟、节省能源、降低成本、提高系统容量和大规模设备连接,实现对路灯的远程集中控制与管理的路灯,智慧路灯具有根据车流量自动调节亮度、远程照明控制、故障主动报警、灯具线缆防盗、远程抄表等功能,能够大幅节省电力资源,提升公共照明管理水平,节省维护成本。
目前,所使用的智慧灯杆主要都是为了节省电力资源,在使用过程中通常具备自动调节亮度、远程照明控制的功能,其它的功能需求不佳,对附近人员提供的帮助有限,智慧灯杆的使用需求效果不佳,不能满足使用需求。因此市场上急需一种多功能模块化智慧灯杆及其实现方法来解决这些问题。
本发明的目的在于提供一种多功能模块化智慧灯杆及其实现方法,以解决上述背景技术中提出对附近人员提供的帮助有限,智慧灯杆的使用需求效果不佳,不能满足使用需求的问题。
为实现上述目的,本发明提供如下技术方案:一种多功能模块化智慧灯杆,包括灯杆、智能电源模块、灯杆控制器模块、环境监测模块、灯杆充电桩模块、用电设备、应急救助模块、灯杆显示屏模块、灯杆通信网关模块和通信网络平台,所述智能电源模块设置有智能交流电源模块和智能直流电源模块,所述用电设备设置有交流用电设备和直流用电设备,且智能交流电源模块和智能直流电源模块分别与交流用电设备和直流用电设备电性连接,所述智能电源模块、灯杆控制器模块、环境监测模块、灯杆充电桩模块、应急救助模块和灯杆显示屏模块均设置在灯杆的内部,且智能电源模块、灯杆控制器模块、环境监测模块、灯杆充电桩模块、应急救助模块和灯杆显示屏模块均与通信网络平台之间均通过灯杆通信网关模块双向数据连接,所述智能交流电源模块和智能直流电源模块均包括电流、电压功率检测和过流、过压保护。
优选的,所述灯杆控制器模块包括定时开关控制、调光控制和灯头运行状态监控;
其中,定时开关控制用于对两路灯头进行定时开关控制管理;
调光控制用于对两路灯头的灯光亮度进行调节控制管理;
灯头运行状态监控用于对两路灯头的运行状态进行监控。
优选的,所述环境监测模块包括温湿度传感器、大气压强传感器、PM2.5传感器、紫外线传感器、风速传感器和噪声传感器;
其中,温湿度传感器用于对周围的空气中的温湿度检测;
大气压强传感器用于对空气的大气压力进行检测;
PM2.5传感器用于对空气中含有悬浮的颗粒物含量浓度进行进行检测;
紫外线传感器用于对照射到空气中的紫外线强度进行检测;
风速传感器用于对周围空气中气流流动的流速和流向进行检测;
噪声传感器用于对周围环境中的声音分贝大小进行检测。
优选的,所述灯杆充电桩模块采用高度节约化设计原则,实现了新能源电动汽车充电和计量功能的高度集成,所述应急救助模块用于提供一键救助功能,在灯杆附近的行人遇到紧急情况时只需一键即可报警求助。
优选的,所述灯杆显示屏模块用于各种灯杆设备的数据收集和整理,并转发至云平台,所述通信网络平台将5G/4G、WiFi、LoRa、NB等通信基站与灯杆融合,构建时空物联网数据通信平台。
优选的,所述灯杆的一侧设置有充电桩,且充电桩与灯杆设置为一体结构,所述灯杆的下方设置有安装座,且安装座与灯杆通过螺钉连接,所述灯杆的一侧设置有多媒体信息板,所述灯杆的两侧均设置有安装架,且安装架和多媒体信息板均与灯杆通过螺钉连接。
优选的,所述灯杆的一侧设置有百叶箱,所述灯杆的另一侧设置有监控摄像头,且百叶箱和监控摄像头均与安装架通过螺钉连接,所述灯杆的上方设置有灯头座,且灯头座与灯杆通过螺钉连接,所述灯头座的下方设置有照明灯,且照明灯与灯头座通过螺钉连接。
优选的,所述充电桩的一侧设置有充电枪,且充电枪与充电桩榫接,所述充电枪的上方设置有救助按键,所述救助按键的上方设置有挡雨板,且挡雨板和救助按键均与充电桩通过螺钉连接,所述多媒体信息板设置在离地高为2M至3M的位置处,所述多媒体信息板的一侧设置有显示屏和蜂鸣器,且显示屏和蜂鸣器均与多媒体信息板通过螺钉连接。
一种多功能模块化智慧灯杆的实现方法,包括如下步骤:
步骤1:借助设置的智能交流电源模块和智能直流电源模块对灯杆内的用电设备进行供电和管理,对用电设备的电流和电压功率进行检测,在电流和电压功率过大时及时进行过流、过压保护,并对每个设备的用电状态进行监控,并可以将监控数据转发至云平台对其进行运行计划管理功能,从而可以实现定时启动关闭,远程启动关闭的功能需求;
步骤2:灯杆控制器模块可以对两路灯头进行控制管理,借助定时开关控制可以对两路灯头实现定时开关切换,调光控制可以根据需求进行灯光色彩和亮度进行调节,灯头运行状态监控对灯头运行状态进行监控同时可以采集灯杆内其他设备的数据并通过网口转发至云平台,便于对灯头进行控制管理;
步骤3:环境监测模块中的温湿度传感器、大气压强传感器、PM2.5传感器、紫外线传感器、风速传感器和噪声传感器可以分别对空气中的温湿度、大气压强、PM2.5含量、紫外线强度、风速风向和环境噪声进行检测,并将采集的数据并通过网口转发至云平台,从而可以实现对周围环境的监控;
步骤4:当新能源电动汽车续航电量不足时,可以借助灯杆充电桩模块对新能源电动汽车进行充电;
步骤5:当灯杆附近的行人遇到紧急情况时,可以通过按下救助按键触发应急救助模块进行报警求助,从而实现了一键救助功能;
步骤6:借助灯杆显示屏模块可以进行多媒体信息展示功能,进行广告播放、信息发布,可以提高了信息的传播效率,实现了智慧灯杆信息展示传递的功能。
1. 该发明装置通过智能电源模块的设置,借助智能电源模块可以对灯杆内部的用电设备进行供电和管理,对用电设备进行电流和电压功率检测,且还能对每个设备的用电状态进行监控,在通电异常时及时进行过流、过压保护功能,对用电设备起到保护的作用,并能够对用电设备进行定时启动关闭,远程启动关闭行计划管理。解决了可以对用电设备进行供电和管理,提高了用电设备使用安全性确保稳定使用的问题。
2. 该发明装置通过灯杆控制器模块的设置,借助灯杆控制器模块可以对两路灯头进行控制管理,从而对两路灯头的使用需求进行工作状态进行调节,并能够将采集数据转发至云平台。解决了可以对两路灯头进行定时开关控制、调光控制、灯头运行状态监控的问题。
3. 该发明装置通过环境监测模块和灯杆显示屏模块的设置,借助环境监测模块可以对空气中温湿度、大气压、PM2.5、紫外线强度、风速风向和环境噪声进行检测,并将采集数据转发至云平台,而灯杆显示屏模块则能进行多媒体信息展示功能。解决了可以对智慧灯杆周围的工作状态进行检测,实现了智慧灯杆多功能需求的问题。
该发明装置通过灯杆充电桩模块和应急救助模块的设置,借助灯杆充电桩模块可以对新能源电动汽车进行充电,且灯杆充电桩模块采用高度节约化设计,占用空间不会太大,而应急救助模块则能对灯杆附近的行人遇到紧急情况时提供一键救助功能。解决了可以有效的增加新能源电动汽车的续航时间和对附近的行人提供一键救助的问题。
图1为本发明的智慧灯杆的整体结构示意图;
图2为本发明的整体原理示意图;
图3为本发明的智能电源模块与用电设备原理连接示意图;
图4为本发明的环境监测模块的原理示意图;
图5为本发明的灯杆控制器模块的原理示意图。
图中:1、灯杆;2、安装座;3、充电桩;4、充电枪;5、挡雨板;6、救助按键;7、多媒体信息板;8、显示屏;9、蜂鸣器;10、百叶箱;11、安装架;12、监控摄像头;13、灯头座;14、照明灯;15、智能电源模块;16、灯杆显示屏模块;17、灯杆控制器模块;18、环境监测模块;19、灯杆通信网关模块;20、用电设备;21、应急救助模块;22、智能交流电源模块;23、智能直流电源模块;24、交流用电设备;25、直流用电设备;26、温湿度传感器;27、大气压强传感器;28、PM2.5传感器;29、紫外线传感器;30、风速传感器;31、噪声传感器;32、定时开关控制;33、调光控制;34、灯头运行状态监控;35、通信网络平台;36、灯杆充电桩模块。
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。
请参阅图1-5,本发明提供的一种实施例:一种多功能模块化智慧灯杆,包括灯杆1、智能电源模块15、灯杆控制器模块17、环境监测模块18、灯杆充电桩模块36、用电设备20、应急救助模块21、灯杆显示屏模块16、灯杆通信网关模块19和通信网络平台35,智能电源模块15设置有智能交流电源模块22和智能直流电源模块23,用电设备20设置有交流用电设备24和直流用电设备25,且智能交流电源模块22和智能直流电源模块23分别与交流用电设备24和直流用电设备25电性连接,智能电源模块15、灯杆控制器模块17、环境监测模块18、灯杆充电桩模块36、应急救助模块21和灯杆显示屏模块16均设置在灯杆1的内部,且智能电源模块15、灯杆控制器模块17、环境监测模块18、灯杆充电桩模块36、应急救助模块21和灯杆显示屏模块16均与通信网络平台35之间均通过灯杆通信网关模块19双向数据连接,智能交流电源模块22和智能直流电源模块23均包括电流、电压功率检测和过流、过压保护,智能电源模块15可以监控用电设备20的用电状态,对用电设备20的电流、电压功率进行检测并提供过流、过压保护,对用电设备20运行计划管理功能,同时对用电设备20进行定时启动关闭、远程启动关闭,智能电源模块15可以确保灯杆1内部的用电设备20供电正常,提高了用电设备20使用的安全性能。
进一步,灯杆控制器模块17包括定时开关控制32、调光控制33和灯头运行状态监控34;
其中,定时开关控制32用于对两路灯头进行定时开关控制32管理;
调光控制33用于对两路灯头的灯光亮度进行调节控制管理;
灯头运行状态监控34用于对两路灯头的运行状态进行监控。
进一步,环境监测模块18包括温湿度传感器26、大气压强传感器27、PM2.5传感器28、紫外线传感器29、风速传感器30和噪声传感器31;
其中,温湿度传感器26用于对周围的空气中的温湿度检测;
大气压强传感器27用于对空气的大气压力进行检测;
PM2.5传感器28用于对空气中含有悬浮的颗粒物含量浓度进行进行检测;
紫外线传感器29用于对照射到空气中的紫外线强度进行检测;
风速传感器30用于对周围空气中气流流动的流速和流向进行检测;
噪声传感器31用于对周围环境中的声音分贝大小进行检测。
进一步,灯杆充电桩模块36采用高度节约化设计原则,实现了新能源电动汽车充电和计量功能的高度集成,应急救助模块21用于提供一键救助功能,在灯杆1附近的行人遇到紧急情况时只需一键即可报警求助。
进一步,灯杆显示屏模块16用于各种灯杆设备的数据收集和整理,并转发至云平台,通信网络平台35将5G/4G、WiFi、LoRa、NB等通信基站与灯杆融合,构建时空物联网数据通信平台。
进一步,灯杆1的一侧设置有充电桩3,且充电桩3与灯杆1设置为一体结构,灯杆1的下方设置有安装座2,且安装座2与灯杆1通过螺钉连接,灯杆1的一侧设置有多媒体信息板7,灯杆1的两侧均设置有安装架11,且安装架11和多媒体信息板7均与灯杆1通过螺钉连接。
进一步,灯杆1的一侧设置有百叶箱10,灯杆1的另一侧设置有监控摄像头12,且百叶箱10和监控摄像头12均与安装架11通过螺钉连接,灯杆1的上方设置有灯头座13,且灯头座13与灯杆1通过螺钉连接,灯头座13的下方设置有照明灯14,且照明灯14与灯头座13通过螺钉连接。
进一步,充电桩3的一侧设置有充电枪4,且充电枪4与充电桩3榫接,充电枪4的上方设置有救助按键6,救助按键6的上方设置有挡雨板5,且挡雨板5和救助按键6均与充电桩3通过螺钉连接,多媒体信息板7设置在离地高为2M至3M的位置处,多媒体信息板7的一侧设置有显示屏8和蜂鸣器9,且显示屏8和蜂鸣器9均与多媒体信息板7通过螺钉连接。
一种多功能模块化智慧灯杆的实现方法,包括如下步骤:
步骤1:借助设置的智能交流电源模块22和智能直流电源模块23对灯杆内的用电设备20进行供电和管理,对用电设备20的电流和电压功率进行检测,在电流和电压功率过大时及时进行过流、过压保护,并对每个设备的用电状态进行监控,并可以将监控数据转发至云平台对其进行运行计划管理功能,从而可以实现定时启动关闭,远程启动关闭的功能需求;
步骤2:灯杆控制器模块17可以对两路灯头进行控制管理,借助定时开关控制32可以对两路灯头实现定时开关切换,调光控制33可以根据需求进行灯光色彩和亮度进行调节,灯头运行状态监控34对灯头运行状态进行监控同时可以采集灯杆内其他设备的数据并通过网口转发至云平台,便于对灯头进行控制管理;
步骤3:环境监测模块18中的温湿度传感器26、大气压强传感器27、PM2.5传感器28、紫外线传感器29、风速传感器30和噪声传感器31可以分别对空气中的温湿度、大气压强、PM2.5含量、紫外线强度、风速风向和环境噪声进行检测,并将采集的数据并通过网口转发至云平台,从而可以实现对周围环境的监控;
步骤4:当新能源电动汽车续航电量不足时,可以借助灯杆充电桩模块36对新能源电动汽车进行充电;
步骤5:当灯杆附近的行人遇到紧急情况时,可以通过按下救助按键6触发应急救助模块21进行报警求助,从而实现了一键救助功能;
步骤6:借助灯杆显示屏模块16可以进行多媒体信息展示功能,进行广告播放、信息发布,可以提高了信息的传播效率,实现了智慧灯杆信息展示传递的功能。
对于本领域技术人员而言,显然本发明不限于上述示范性实施例的细节,而且在不背离本发明的精神或基本特征的情况下,能够以其他的具体形式实现本发明。因此,无论从哪一点来看,均应将实施例看作是示范性的,而且是非限制性的,本发明的范围由所附权利要求而不是上述说明限定,因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本发明内。不应将权利要求中的任何附图标记视为限制所涉及的权利要求。
Claims (9)
- 一种多功能模块化智慧灯杆,包括灯杆(1)、智能电源模块(15)、灯杆控制器模块(17)、环境监测模块(18)、灯杆充电桩模块(36)、用电设备(20)、应急救助模块(21)、灯杆显示屏模块(16)、灯杆通信网关模块(19)和通信网络平台(35),其特征在于:所述智能电源模块(15)设置有智能交流电源模块(22)和智能直流电源模块(23),所述用电设备(20)设置有交流用电设备(24)和直流用电设备(25),且智能交流电源模块(22)和智能直流电源模块(23)分别与交流用电设备(24)和直流用电设备(25)电性连接,所述智能电源模块(15)、灯杆控制器模块(17)、环境监测模块(18)、灯杆充电桩模块(36)、应急救助模块(21)和灯杆显示屏模块(16)均设置在灯杆(1)的内部,且智能电源模块(15)、灯杆控制器模块(17)、环境监测模块(18)、灯杆充电桩模块(36)、应急救助模块(21)和灯杆显示屏模块(16)均与通信网络平台(35)之间均通过灯杆通信网关模块(19)双向数据连接,所述智能交流电源模块(22)和智能直流电源模块(23)均包括电流、电压功率检测和过流、过压保护。
- 根据权利要求1所述的一种多功能模块化智慧灯杆,其特征在于:所述灯杆控制器模块(17)包括定时开关控制(32)、调光控制(33)和灯头运行状态监控(34);其中,定时开关控制(32)用于对两路灯头进行定时开关控制(32)管理;调光控制(33)用于对两路灯头的灯光亮度进行调节控制管理;灯头运行状态监控(34)用于对两路灯头的运行状态进行监控。
- 根据权利要求1所述的一种多功能模块化智慧灯杆,其特征在于:所述环境监测模块(18)包括温湿度传感器(26)、大气压强传感器(27)、PM2.5传感器(28)、紫外线传感器(29)、风速传感器(30)和噪声传感器(31);其中,温湿度传感器(26)用于对周围的空气中的温湿度检测;大气压强传感器(27)用于对空气的大气压力进行检测;PM2.5传感器(28)用于对空气中含有悬浮的颗粒物含量浓度进行进行检测;紫外线传感器(29)用于对照射到空气中的紫外线强度进行检测;风速传感器(30)用于对周围空气中气流流动的流速和流向进行检测;噪声传感器(31)用于对周围环境中的声音分贝大小进行检测。
- 根据权利要求1所述的一种多功能模块化智慧灯杆,其特征在于:所述灯杆充电桩模块(36)采用高度节约化设计原则,实现了新能源电动汽车充电和计量功能的高度集成,所述应急救助模块(21)用于提供一键救助功能,在灯杆(1)附近的行人遇到紧急情况时只需一键即可报警求助。
- 根据权利要求1所述的一种多功能模块化智慧灯杆,其特征在于:所述灯杆显示屏模块(16)用于各种灯杆设备的数据收集和整理,并转发至云平台,所述通信网络平台(35)将5G/4G、WiFi、LoRa、NB等通信基站与灯杆融合,构建时空物联网数据通信平台。
- 根据权利要求1所述的一种多功能模块化智慧灯杆,其特征在于:所述灯杆(1)的一侧设置有充电桩(3),且充电桩(3)与灯杆(1)设置为一体结构,所述灯杆(1)的下方设置有安装座(2),且安装座(2)与灯杆(1)通过螺钉连接,所述灯杆(1)的一侧设置有多媒体信息板(7),所述灯杆(1)的两侧均设置有安装架(11),且安装架(11)和多媒体信息板(7)均与灯杆(1)通过螺钉连接。
- 根据权利要求6所述的一种多功能模块化智慧灯杆,其特征在于:所述灯杆(1)的一侧设置有百叶箱(10),所述灯杆(1)的另一侧设置有监控摄像头(12),且百叶箱(10)和监控摄像头(12)均与安装架(11)通过螺钉连接,所述灯杆(1)的上方设置有灯头座(13),且灯头座(13)与灯杆(1)通过螺钉连接,所述灯头座(13)的下方设置有照明灯(14),且照明灯(14)与灯头座(13)通过螺钉连接。
- 根据权利要求6所述的一种多功能模块化智慧灯杆,其特征在于:所述充电桩(3)的一侧设置有充电枪(4),且充电枪(4)与充电桩(3)榫接,所述充电枪(4)的上方设置有救助按键(6),所述救助按键(6)的上方设置有挡雨板(5),且挡雨板(5)和救助按键(6)均与充电桩(3)通过螺钉连接,所述多媒体信息板(7)设置在离地高为2M至3M的位置处,所述多媒体信息板(7)的一侧设置有显示屏(8)和蜂鸣器(9),且显示屏(8)和蜂鸣器(9)均与多媒体信息板(7)通过螺钉连接。
- 一种多功能模块化智慧灯杆的实现方法,基于权利要求1-8任意一项一种可编程数字化机器视觉检测平台实现,其特征在于,包括如下步骤:步骤1:借助设置的智能交流电源模块(22)和智能直流电源模块(23)对灯杆内的用电设备(20)进行供电和管理,对用电设备(20)的电流和电压功率进行检测,在电流和电压功率过大时及时进行过流、过压保护,并对每个设备的用电状态进行监控,并可以将监控数据转发至云平台对其进行运行计划管理功能,从而可以实现定时启动关闭,远程启动关闭的功能需求;步骤2:灯杆控制器模块(17)可以对两路灯头进行控制管理,借助定时开关控制(32)可以对两路灯头实现定时开关切换,调光控制(33)可以根据需求进行灯光色彩和亮度进行调节,灯头运行状态监控(34)对灯头运行状态进行监控同时可以采集灯杆内其他设备的数据并通过网口转发至云平台,便于对灯头进行控制管理;步骤3:环境监测模块(18)中的温湿度传感器(26)、大气压强传感器(27)、PM2.5传感器(28)、紫外线传感器(29)、风速传感器(30)和噪声传感器(31)可以分别对空气中的温湿度、大气压强、PM2.5含量、紫外线强度、风速风向和环境噪声进行检测,并将采集的数据并通过网口转发至云平台,从而可以实现对周围环境的监控;步骤4:当新能源电动汽车续航电量不足时,可以借助灯杆充电桩模块(36)对新能源电动汽车进行充电;步骤5:当灯杆附近的行人遇到紧急情况时,可以通过按下救助按键(6)触发应急救助模块(21)进行报警求助,从而实现了一键救助功能;步骤6:借助灯杆显示屏模块(16)可以进行多媒体信息展示功能,进行广告播放、信息发布,可以提高了信息的传播效率,实现了智慧灯杆信息展示传递的功能。
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