CN219981110U - Intelligent street lamp with 4G SIM card remote communication controller - Google Patents

Abstract

The utility model relates to the field of lighting lamp equipment, in particular to a smart street lamp with a 4G SIM card remote communication controller, which comprises: lamp pole subassembly, camera module, solar module, controller module and light subassembly. The lamp post assembly comprises a lamp arm, a mounting base and a lamp post. The lamp pole is installed on the road through the installation base. The lamp arm is provided with a camera module, a controller module and an illuminating lamp component. Solar energy component is installed at the lamp pole top. The controller module adopts 4G Cat.1 communication, and utilizes a 4G network to communicate with the background, so that the real-time online rate is close to 100%, and the background controls the on-off of the street lamp, the brightness of the street lamp, the working state and the environment of the detected street lamp and the like through the controller module. The utility model can improve the line feeding rate of the street lamp controller, and control the illumination of the street lamp through the background transmission instruction, thereby realizing intelligent control of street lamp equipment.

Description

Intelligent street lamp with 4G SIM card remote communication controller

Technical Field

The utility model relates to the field of lighting lamp equipment, in particular to an intelligent street lamp

Background

Along with the continuous development of urban construction in China, the urban construction gradually advances towards the intelligent and intelligent direction. Among them, road construction is a major construction project. With the development of road construction, the number of newly increased and improved road mileage per year is increased, the requirements and the number of road illumination are increased, and various levels of governments have made higher requirements for road illumination. The control requirements for the distribution, range, brightness, etc. of the illumination are continually increasing. The street lamp is used as a main object for providing road illumination and is spread over all corners of urban roads, so that an intelligent street lamp is necessary.

The existing street lamp lighting equipment mounted controller generally adopts traditional power carrier PLC, wireless short-range ZigBee, wireless long-range LoRa ad hoc network or leading-edge NB-IoT, 4G Cat.1 communication technology. However, all the traditional three communication modes need to be transferred by installing a single-lamp controller at the distribution box, which results in long inspection period, easiness in line or wireless interference and low line-up rate. The NB-IoT method is limited by the narrowband attribute and the online NB equipment, and the online rate is unsatisfactory, and the 4G Cat.1 communication, by utilizing the large broadband of the 4G network, the difficult problem of concurrent communication of the controller can be thoroughly solved, and the real-time online rate approaching to 100% is achieved.

In the environment with high energy-saving requirement and shortage of power supply, the flexible control of the street lamp lighting equipment can be used as a useful power-saving mode, for example, the street lamp lighting equipment can be effectively used for spacing off the lamp at night or adjusting the switching time of the street lamp. However, the complexity of these control modes and the distribution range of the street lamps have influence on the control accuracy.

Disclosure of Invention

The utility model aims to provide an intelligent street lamp with a remote communication controller supporting a 4G SIM card, which solves the problems of communication and control precision in the background technology

In order to achieve the above purpose, the present utility model proposes the following technical scheme: the intelligent street lamp comprises a lamp post assembly, a camera module, a solar module, a controller module and an illuminating lamp assembly. The lamp post assembly comprises a mounting base, a lamp post and a lamp arm. The solar lamp is characterized in that the mounting base is mounted at the bottom of the lamp post and can be mounted on a road, the front end of the lamp arm is a plastic semicircular cover, the rear end of the lamp arm is a metal rod, the rear end of the lamp arm is mounted on the upper portion of the lamp post, the illuminating lamp assembly is mounted at the front end of the lamp arm, the solar assembly is mounted at the top of the lamp post, the middle end of the lamp arm is provided with a controller device, and the controller is electrically connected with the illuminating lamp assembly. The rear end of the plastic semicircular cover at the front end of the lamp arm is provided with a camera module.

Preferably, the solar module comprises a storage battery and a solar photovoltaic panel; the solar photovoltaic panel is arranged at the top of the lamp post and is used for supplying power to the storage battery; the storage battery is arranged in the hollow structure of the lamp post and is used for providing electricity for part of the illuminating lamp.

Preferably, the solar photovoltaic panel is obliquely arranged at the top of the lamp post through the mounting bracket. The mounting bracket can adjust the angle so that the photovoltaic panel is mounted at the top of the lamp post at different angles.

Preferably, the camera module comprises a camera. The camera is connected with a storage battery in the lamp post, and the storage battery supplies power for the camera. The camera mainly provides the work of monitoring probe.

Preferably, the controller device comprises a power module, a processor module, a communication module, a parameter measurement module, a dimming output module and a tilt angle detection module. The power module is used for converting input alternating current 220V electricity into 3.3V direct current required by the processor, the communication module, the relay and the control module; the model of a main processor adopted by the processor module is STM32F103CBT6, and the processor is used for controlling each module; the processor module is respectively and independently connected with the power supply module and the processor module; the communication module performs wireless communication with the background through a 4G Cat1. The communication chip is connected with an antenna and an SIM card, the SIM card is used for data connection, the antenna enhances the signal intensity, and the device control can be performed in the background; the electric parameter measuring module is used for detecting each working state of the external light source when working; the electric parameter measuring module is connected with the central processing unit through the photoelectric isolation module; the light modulation output module is used for controlling an external light source and is directly connected with the central processing unit; the inclination angle detection module is used for detecting the placement state of the street lamp controller and is directly connected with the central processing unit module.

Compared with the prior art, the utility model has the beneficial effects that: the utility model relates to an intelligent street lamp with a remote communication controller supporting a 4G SIM card. By utilizing the remote communication controller, 4G communication control can be carried out on the street lamp equipment, the switch of the street lamp is controlled, the brightness of the street lamp is controlled, the working state and the environment of the street lamp are detected, and the gesture position of the controller is detected through the communication system, so that the control management with high efficiency and low cost can be realized, the antenna enhancement signal is added, the information transmission speed is improved, and the system efficiency is improved. The street lamp can be intelligently managed.

Drawings

FIG. 1 is a block diagram of an implementation structure of a 4G SIM card remote communication controller

FIG. 2 is a schematic diagram of an intelligent street lamp according to the embodiment of the present utility model

Detailed Description

The present utility model is further illustrated below in conjunction with the specific embodiments, it being understood that these embodiments are meant to be illustrative of the utility model only and not limiting the scope of the utility model, and that modifications of the utility model, which are equivalent to those skilled in the art to which the utility model pertains, will fall within the scope of the utility model as defined in the appended claims.

The utility model provides a smart street lamp with a 4G SIM card remote communication controller

Referring to fig. 1, fig. 1 is a block diagram of an implementation structure of a 4G SIM card remote communication controller

As shown in fig. 1, a street lamp controller device supporting 4G SIM card remote communication includes: the system comprises a processor module 1, a communication module 2, an electric parameter measuring module 3, a relay control module 4, a PWM dimming output module 5, a power module 6, an inclination angle detection module 7, a photoelectric isolation module 8, a serial port conversion module 9 and a background control system 10;

the processor module 1 selects a general ARM chip STM32F103CBT6, and is used for receiving information received by the communication module 2 and the control system and information received by the electric parameter detection module 3, outputting a signal through the photoelectric isolation module 8 to control a relay and perform dimming output, and directly receiving the inclination angle information of the inclination angle detection module 7;

the communication module 2 is connected with the processor module 1 through the serial port conversion module 9, and the serial port conversion module 9 converts 3.3V of the processor module 1 with 1.8V of the communication module 2 to realize the connection of the two;

the electrical parameter measuring module 3 detects electrical parameters in 220V alternating current, including: voltage value, current value, calculation power value, etc., and transmitting the detected information to the processor module 1; the electric parameter measuring module 3 is powered by 5V through the power supply conversion module;

the relay control module 4 is connected with the general ARM chip and controlled by the processor module 1, and the relay controls a power supply loop of an external circuit alternating current load;

the dimming output module 5 is connected with the processor module 1 through the photoelectric isolation module 8, and the dimming output module 5 adopts a 2-level RC filter circuit and an operational amplifier circuit to amplify the 3.3V voltage output by the processor module 1 into 0-10V voltage output for controlling the LED lamp source to perform dimming control;

the power supply module 6 uses an AC-DC power supply module to convert 220V alternating current into 12V direct current to be supplied to the relay output module, and adopts a two-stage voltage reduction circuit to reduce the 12V to 5V and then to 3.3V to be supplied to the processor;

the inclination angle detection module 7 is electrically connected with the processor module 1, and the inclination angle detection module 7 sends information to the universal ARM chip after detecting the inclination angle change of the street lamp controller;

the photoelectric isolation module 8 adopts an optical coupler EL357N, and the photoelectric isolation module 8 is used for isolating the electric parameter measurement module 3, the PWM dimming output module 5 and the processor module 1 so as to ensure the safety of signals;

the serial port conversion module 9 is used for converting the serial port level of the processor module 1 and the communication module 2, converting the 3.3V voltage of the serial port of the universal ARM chip into the 1.8V voltage of the communication module 2, and transmitting the information of the processor module 1 and the communication module;

the background control system 10 performs wireless communication with the communication module 2, and communication between the background control system and the communication module 2 is divided into two types, namely uplink communication and downlink communication: the uplink communication comprises response when the equipment logs in, timing report of the controller and alarm of some detection quantity data; the downlink communication is mainly to modify various control amounts of the controller, and also to issue and query tasks.

Referring to fig. 2, fig. 2 is a schematic diagram of an intelligent street lamp according to the embodiment of the utility model

The utility model provides an intelligent street lamp 100

Referring to fig. 2, in an embodiment of the present utility model, the intelligent street lamp 100 includes a lamp post assembly 110, a camera module 120, a solar module 130, a controller module 140, and a lighting lamp assembly 150. The light pole assembly 110 includes a mounting base 111, a light pole 112, and a light arm 113. The mounting base 111 is mounted on the lower portion of the lamp post 112, and includes a portion of the lamp post for fixing the lamp post and connecting to the ground. A lamp arm 113 is installed at the middle upper portion of the lamp pole 112.

Further, the lamp arm 113 may be mounted on the upper portion of the lamp post 112 by welding. The connection of the front and rear ends of the lamp arm 113 may also be performed by welding. The lamp post 112 is hollow and made of metal. The mounting post 114 is also typically a metallic material, and the mounting post 114 is mounted inside the light pole 112 to provide support.

In one embodiment of the present utility model, the camera module 120 employs a commercially available monitoring camera, powered by the battery 131 and by normal power. The camera provides camera monitoring and the like.

In one embodiment of the present utility model, the solar module 130 includes a storage battery 131, a mounting bracket 132 and a solar panel 133, and the solar module 130 is mounted on top of the lamp post assembly 110. The solar panel 133 is mounted on the mounting bracket 132 at an oblique angle, and the mounting bracket 132 may be mounted on top of the lamp pole 112 to provide support. The battery 131 is connected to the solar panel 133 and the camera module 120, and the battery 131 mainly supplies power to the camera module 120 and the illumination lamp. The mounting brackets 132 are angularly adjustable so that the solar panels 130 can be mounted on the brackets at different angles.

In one embodiment of the present utility model, the controller module 140 is mounted at the mid-half of the dome of the lamp arm 113, primarily providing control functions for the lamp assembly 150, such that the lamp assembly 150 can take back-end control, providing control over the extent, size, time, etc. of the dimming.

In one embodiment of the present utility model, the lamp assembly 150 employs marketable street lamp lighting apparatus. The illumination range, illumination time, and the like of the lamp assembly 150 are controlled by the controller module 140. The power for the lamp assembly 150 is supplied by the battery 131 and the mains.

In summary, compared with the prior art, the utility model has the following beneficial effects: the intelligent street lamp is provided with the 4G SIM card remote communication controller, the 4G SIM card remote communication is adopted, the on-line rate of the street lamp controller is improved, the instructions are transmitted through the communication system, the on-off of the street lamp is controlled, the brightness of the street lamp is controlled, the working state and the environment of the street lamp are detected, and the intelligent street lamp equipment is realized.

The foregoing description of the preferred embodiments of the utility model is provided for the purpose of illustration only, and is not intended to limit the utility model to the precise form disclosed herein.

Claims (3)

1. A smart street lamp with a 4G SIM card remote communication controller mounted, comprising: lamp pole subassembly, camera module, solar module, controller module and light subassembly, its characterized in that:

a lamp post assembly: the lamp post assembly comprises a mounting base, a lamp post and lamp arms, wherein the lamp post is mounted at two sides of a road through the mounting base, and the lamp arms are provided with a camera module, a solar energy assembly, a controller module and an illuminating lamp assembly; the controller module adopts 4G SIM card remote communication, can control the switch of the street lamp, control the luminance of the street lamp, detect working condition and environment of the street lamp; the controller module comprises a processor module, a power supply module, a remote communication module, an electric parameter measurement module, a dimming output module, an inclination angle detection module and a serial port conversion module.

2. The smart street lamp with a 4G SIM card remote communication controller mounted thereon according to claim 1, wherein:

the lamp post is made of metal and is of a hollow structure, cable wires and mounting columns can be mounted in the lamp post, and the mounting columns provide supporting function; the front end of the lamp arm is made of plastic, is semicircular, and the rear part of the lamp arm is provided with a metal rod, and the lamp arm is connected with the lamp post through the metal rod; the illumination assembly, the controller and the camera are arranged at the front end of the lamp arm semicircular cover; the installation base of lamp pole subassembly adopts the metal material, and the installation base is used for fixed lamp pole and installation whole street lamp lighting apparatus in selected position.

3. The smart street lamp with a 4G SIM card remote communication controller mounted thereon according to claim 1, wherein:

the processor module adopts a chip model STM32F103CBT6 to control each module; the power module is used for converting input alternating current 220V electricity into 3.3V direct current required by the processor module, the communication module, the relay and the control module; the remote communication module enables the controller to perform wireless communication with the background through the 4G Cat1. The chip is connected with the antenna and the SIM card, the SIM card is used for data connection, and the antenna enhances the signal intensity; the electric parameter measuring module is used for detecting each working state of the external light source when working, and is connected with the processor module through the photoelectric isolation module; the dimming output module is used for controlling an external light source and is directly connected with the processor module; the street lamp controller comprises an inclination angle detection module, a processor module and a control module, wherein the inclination angle detection module is used for detecting the placing state of the street lamp controller and is directly connected with the processor module; the serial port conversion module is used for connecting the processor module and the communication module and converting 1.8V voltage of the communication module into 3.3V voltage of the processor module.