CN202005022U - Remote-control stepped wireless control road lamp device - Google Patents

Abstract

The utility model discloses a remote stepped wireless control road lamp device which is characterized in that: the remote-control stepped wireless control road lamp device comprises one group of single lamp detection control devices (6) arranged on all road lamps, the single lamp detection control devices (6) of the adjacent road lamps are connected by a zigbee wireless communication network (7); the remote-control stepped wireless control road lamp device also comprises a remote monitoring center (8) connected with one group of the single lamp detection control devices (6). In the utility model, electrical resources can be saved, the labor intensity is reduced, the control is simple and the operation is convenient.

Description

Translated fromChinese

远程阶梯式无线控制路灯装置Remote stepped wireless control street light device

技术领域technical field

本实用新型涉及一种路灯的控制装置，特别是一种远程阶梯式无线控制LED路灯装置。The utility model relates to a street lamp control device, in particular to a remote stepped wireless control LED street lamp device.

背景技术Background technique

作为一种全新的照明技术，LED是利用半导体芯片作为发光材料，直接将电能转换为光能的发光材料，与白炽灯的钨丝发光和节能灯的三基色粉发光不同，LED是采用电场发光。As a new lighting technology, LED is a luminescent material that uses semiconductor chips as luminescent materials to directly convert electrical energy into light energy. .

LED可适用于不同电压电源，能效高、光源耗电少、节约能量，以第三代半导体材料氮化镓作为LED照明光源，在同样亮度下耗电量仅为普通白炽灯的1/10。LED照明节能由于能耗少，与之相伴就是二氧化碳气体排放减少，光源本身不含汞、铅等有害物质无红外和紫外污染，LED全固体发光，可承受高强度机械冲击和震动，安全可靠、寿命长、亮度大、节能环保的LED灯具。LED can be applied to different voltage power sources, with high energy efficiency, low light source power consumption, and energy saving. The third-generation semiconductor material gallium nitride is used as the LED lighting source, and the power consumption is only 1/10 of that of ordinary incandescent lamps under the same brightness. LED lighting energy saving is due to less energy consumption, which is accompanied by reduced carbon dioxide gas emissions. The light source itself does not contain harmful substances such as mercury and lead, and has no infrared and ultraviolet pollution. LED lamps with long life, high brightness, energy saving and environmental protection.

目前，LED路灯都是一个一个LED路灯之间通过电力线连接，经一个总控制器来设定亮灯时间和熄灯时间。在亮灯期间一直亮着LED路灯，即使是半夜2或3点无人无车时，还是灯火通亮，浪费了不必要的电力资源；一旦LED路灯控制出现失常，就需要服务工程师亲临现场进行维修，使得劳动强度增强。另外，也有采用无线控制器对LED路灯进行控制的，该种无线控制器采用的是TCP协议(即所谓的GPRS)，其缺陷是双方必须有一方具有公网IP(或在同一个内网中)，否则就需要在路由器上做端口映射。因此，该无线控制器操作比较复杂，使用效果较不理想。At present, LED street lamps are all connected by power lines one by one, and the lighting time and lighting time are set by a general controller. During the lighting period, the LED street lights are always on, even at 2 or 3 o'clock in the middle of the night when there is no one and no cars, the lights are still bright, which wastes unnecessary power resources; once the LED street lights are out of control, service engineers need to visit the site to carry out Maintenance increases labor intensity. In addition, some wireless controllers are used to control LED street lights. This kind of wireless controller uses the TCP protocol (the so-called GPRS). ), otherwise you need to do port mapping on the router. Therefore, the operation of the wireless controller is relatively complicated, and the use effect is relatively unsatisfactory.

实用新型内容Utility model content

本实用新型的目的在于，提供一种远程阶梯式无线控制路灯装置。本实用新型不仅可节省电力资源，降低了劳动强度，而且控制简单，操作方便。The purpose of the utility model is to provide a remote stepped wireless control street lamp device. The utility model can not only save power resources and reduce labor intensity, but also has simple control and convenient operation.

本实用新型的技术方案：远程阶梯式无线控制路灯装置，其特征在于：包括一组分别设置在每个路灯上的单灯检测控制装置，相邻路灯的单灯检测控制装置之间通过zigbee无线通信网络进行连接；还包括与一组单灯检测控制装置连接的远程监控中心。The technical solution of the present utility model: the remote stepped wireless control street lamp device is characterized in that it includes a group of single-lamp detection control devices respectively arranged on each street lamp, and the single-lamp detection control devices of adjacent street lamps are connected via zigbee wireless It is connected with the communication network; it also includes a remote monitoring center connected with a group of single lamp detection and control devices.

前述的远程阶梯式无线控制路灯装置中，所述的单灯检测控制装置包括单片机、zigbee模块、路灯监控模块；单片机分别与zigbee模块、路灯监控模块连接，路灯监控模块连接路灯的LED灯体。In the aforementioned remote stepped wireless control street lamp device, the single lamp detection and control device includes a single-chip microcomputer, a zigbee module, and a street lamp monitoring module; the single-chip microcomputer is respectively connected with the zigbee module and the street lamp monitoring module, and the street lamp monitoring module is connected with the LED lamp body of the street lamp.

前述的远程阶梯式无线控制路灯装置中，所述的远程监控中心包括总控处理器、zigbee模块、输入装置和输出装置；总控处理器分别与zigbee模块、输入装置、输出装置连接，zigbee模块经zigbee无线通信网络与单灯检测控制装置连接。In the aforementioned remote stepped wireless control street lamp device, the remote monitoring center includes a master control processor, a zigbee module, an input device and an output device; the master control processor is connected with the zigbee module, the input device, and the output device respectively, and the zigbee module It is connected with the single lamp detection and control device through the zigbee wireless communication network.

前述的远程阶梯式无线控制路灯装置中，所述的设置在起始端的路灯上还设有连接单片机的感应器模块，用于感应是否有汽车驶入。In the aforementioned remote stepped wireless control street lamp device, the street lamp installed at the starting end is also provided with a sensor module connected to a single-chip microcomputer for sensing whether there is a car driving in.

前述的远程阶梯式无线控制路灯装置中，所述的感应器模块，是微波感应器、红外感应器或声控感应器。In the aforementioned remote stepped wireless control street lamp device, the sensor module is a microwave sensor, an infrared sensor or a voice-activated sensor.

与现有技术相比，本实用新型将远程监控中心通过zigbee无线通信网络对各路灯进行监控，控制简单，操作方便，一旦LED路灯控制出现失常，只需远程进行维护，降低劳动强度；因zigbee无线通信网络采用的是zigbee协议的，能在数千个微小的传感器之间相互协调实现通讯，能耗较小，以接力的方式通过无线电波将数据从一个传感器传到另一个传感器，能提高了通信效率。本实用新型在起始端的路灯上设置感应器，感应有汽车驶入时亮起LED灯体，并将信号通过zigbee模块发送到下个路灯上的zigbee模块进行接收，进而点亮LED灯体，依次点亮各路灯的LED灯体，达到的效果是车未到，灯开路，随着车的前进，灯在其前面先亮起来，实现远程阶梯式无线控制的目的，因没车行驶的时候，路灯是不亮的，节省了大量的电力资源。本实用新型不仅可节省电力资源，降低了劳动强度，而且控制简单，操作方便。Compared with the existing technology, the utility model uses the remote monitoring center to monitor each street lamp through the zigbee wireless communication network, which is simple to control and convenient to operate. Once the control of the LED street lamp is abnormal, only remote maintenance is required to reduce labor intensity; The wireless communication network adopts the zigbee protocol, which can coordinate and realize communication between thousands of tiny sensors, with low energy consumption, and transmits data from one sensor to another through radio waves in a relay manner, which can improve communication efficiency. The utility model is provided with an inductor on the street lamp at the starting end to light up the LED lamp body when a car is driven in, and sends the signal through the zigbee module to the zigbee module on the next street lamp for reception, and then lights up the LED lamp body. Light up the LED lamp body of each street lamp in turn, the effect is that the car is not coming, the lamp is on the road, as the car advances, the lamp lights up in front of it first, to achieve the purpose of remote step-by-step wireless control, because when there is no car driving , the street lights are not on, saving a lot of power resources. The utility model can not only save power resources and reduce labor intensity, but also has simple control and convenient operation.

附图说明Description of drawings

图1是本实用新型的结构示意图；Fig. 1 is the structural representation of the utility model;

图2是本实用新型使用时的结构示意图。Fig. 2 is a schematic structural view of the utility model when in use.

附图中的标记为：1-zigbee模块，2-单片机，3-路灯监控模块，4-LED灯体，5-感应器模块，6-单灯检测控制装置，7-zigbee无线通信网络，8-远程监控中心，9-总控处理器，10-输入装置，11-输出装置。The marks in the drawings are: 1-zigbee module, 2-single-chip microcomputer, 3-street lamp monitoring module, 4-LED lamp body, 5-sensor module, 6-single lamp detection and control device, 7-zigbee wireless communication network, 8- - remote monitoring center, 9 - master control processor, 10 - input device, 11 - output device.

具体实施方式Detailed ways

下面结合附图和实施例对本实用新型作进一步的说明，但并不作为对本实用新型限制的依据。The utility model will be further described below in conjunction with the accompanying drawings and embodiments, but it is not used as a basis for limiting the utility model.

实施例。远程阶梯式无线控制路灯装置，构成如图1所示，包括一组分别设置在每个路灯上的单灯检测控制装置6，相邻路灯的单灯检测控制装置6之间经zigbee无线通信网络7连接；还包括与一组单灯检测控制装置6连接的远程监控中心8。Example. The remote stepped wireless control street lamp device is composed as shown in Figure 1, including a group of single lamp detection andcontrol devices 6 respectively arranged on each street lamp, and the single lamp detection andcontrol devices 6 of adjacent street lamps are connected via a zigbeewireless communication network 7 connections; also includes aremote monitoring center 8 connected with a group of single lampdetection control devices 6.

所述的单灯检测控制装置6包括单片机2、zigbee模块1、路灯监控模块3；单片机2分别与zigbee模块1、路灯监控模块3连接，路灯监控模块3连接路灯的LED灯体4。The single-lampdetection control device 6 includes a single-chip microcomputer 2, azigbee module 1, and a streetlamp monitoring module 3; the single-chip microcomputer 2 is connected with thezigbee module 1 and the streetlamp monitoring module 3 respectively, and the streetlamp monitoring module 3 is connected with theLED lamp body 4 of the street lamp.

所述的远程监控中心8包括总控处理器9、zigbee模块1、输入装置10和输出装置11；总控处理器9分别与zigbee模块1、输入装置10、输出装置11连接，zigbee模块1经zigbee无线通信网络7与单灯检测控制装置6连接；输入装置10可对进行远程监控中心8进行操作，输出装置11可以是打印装置，进行实时记录。Describedremote monitoring center 8 comprisesmaster control processor 9,zigbee module 1,input device 10 andoutput device 11;Master control processor 9 is connected withzigbee module 1,input device 10,output device 11 respectively, andzigbee module 1 passes through The zigbeewireless communication network 7 is connected with the single lampdetection control device 6; theinput device 10 can operate theremote monitoring center 8, and theoutput device 11 can be a printing device for real-time recording.

所述的设置在起始端的路灯上还设有连接单片机2的感应器模块5，用于感应是否有汽车驶入；所述的感应器模块5，是微波感应器、红外感应器或声控感应器。The street lamp arranged at the starting end is also provided with asensor module 5 connected to the single-chip microcomputer 2 for sensing whether a car enters; thesensor module 5 is a microwave sensor, an infrared sensor or a voice-activated sensor device.

上述的zigbee模块1是现有的无线通信模块，无线通信协议采用的是Zigbee协议，此协议Zigbee是一种新兴的短距离、低速率的无线网络技术，主要用于近距离无线连接。它有自己的协议标准，在数千个微小的传感器之间相互协调实现通信，这些传感器只需要很少的能量，以接力的方式通过无线电波将数据从一个传感器传到另一个传感器，所以它们的通信效率非常高。该zigbee模块耗电小，能节约电能。The above-mentionedzigbee module 1 is an existing wireless communication module, and the wireless communication protocol adopts the Zigbee protocol. This protocol Zigbee is a new short-distance, low-speed wireless network technology, mainly used for short-distance wireless connection. It has its own protocol standard, and it coordinates with each other to realize communication among thousands of tiny sensors. The communication efficiency is very high. The zigbee module consumes little power and can save power.

本实用新型的使用如图2所示，是通过第一盏路灯在范围内感应到汽车来，感应器模块通过信号线到达单片机，单片机控制路灯监控模块使LED灯体发光，同时通过zigbee模块发出信号，到达另一路灯的zigbee模块，经单片机控制LED灯体延迟几秒亮灯，这样依次一直到其它的路灯。达到的效果是车未到，灯开路，随着车的前进，灯在其前面先亮起来。同时也可以通过远程监控中心进行远程维护，解决以往服务工程师必须亲临现场才能解决的问题，大大降低了维护成本，实现高效率、低成本的远程阶梯式无线控制。The use of the utility model is shown in Figure 2. The first street lamp senses the car within the range, the sensor module reaches the single-chip microcomputer through the signal line, and the single-chip microcomputer controls the street lamp monitoring module to make the LED lamp body emit light. The signal reaches the zigbee module of another street lamp, and the LED lamp body is controlled by the single-chip microcomputer to delay the lighting for a few seconds, so as to reach other street lamps in turn. The effect achieved is that before the car arrives, the light is on the road, and as the car advances, the light will light up first in front of it. At the same time, remote maintenance can also be carried out through the remote monitoring center, which solves the problems that service engineers had to visit the site in person in the past, greatly reduces maintenance costs, and realizes high-efficiency, low-cost remote stepped wireless control.

Claims (5)

1. long-range staged controlled in wireless road lamp device is characterized in that: comprise one group of single lamp detection control apparatus (6) that is arranged on respectively on each street lamp, connect through zigbee cordless communication network (7) between single lamp detection control apparatus (6) of adjacent street lamp; Also comprise the remote monitoring center (8) that is connected with one group of single lamp detection control apparatus (6).

2. long-range staged controlled in wireless road lamp device according to claim 1 is characterized in that: described single lamp detection control apparatus (6) comprises single-chip microcomputer (2), zigbee module (1), streetlight monitoring module (3); Single-chip microcomputer (2) is connected with zigbee module (1), streetlight monitoring module (3) respectively, and streetlight monitoring module (3) connects the LED lamp body (4) of street lamp.

3. long-range staged controlled in wireless road lamp device according to claim 1 is characterized in that: described remote monitoring center (8) comprises total controlling processor (9), zigbee module (1), input unit (10) and output device (11); Total controlling processor (9) is connected with zigbee module (1), input unit (10), output device (11) respectively, and zigbee module (1) is connected with single lamp detection control apparatus (6) through zigbee cordless communication network (7).

4. according to claim 1,2 or 3 described long-range staged controlled in wireless road lamp devices, it is characterized in that: whether also be provided with the sensor module (5) that connects single-chip microcomputer (2) on the described street lamp that is arranged on initiating terminal, being used for induction has automobile to sail into.

5. long-range staged controlled in wireless road lamp device according to claim 4 is characterized in that: described sensor module (5) is microwave sensor, infrared inductor or acoustic control inductor.

Images