CN207603968U - A kind of Intelligent campus illumination management system based on LoRa Internet of Things modules - Google Patents

Abstract

The utility model discloses a kind of Intelligent campus illumination management system based on LoRa Internet of Things modules, including：Headlamp, microcontroller, LoRa modules, the first photosensitive sensor and server.On the outside of the lamp body for being located at the headlamp of first photosensitive sensor, the microcontroller and the LoRa modules are located inside the lamp bracket of the headlamp, and the signal antenna of the LoRa modules stretches out lighting lamp stand outer wall.The output terminal of first photosensitive sensor connects the signal input part of the microcontroller, the LoRa modules are connect by data line with microcontroller, the server is located at the campus logistics management room, and the microcontroller is connect by the LoRa modules with server communication.The Intelligent campus illumination management system based on LoRa Internet of Things modules, facilitates maintenance personal to be monitored in server end to all campus headlamps, and positioning record repairs it in time；Avoid when street lamp attachment does not have pedestrian, headlamp is opened for a long time, be lost electric energy the defects of.

Description

A kind of Intelligent campus illumination management system based on LoRa Internet of Things modules

Technical field

The utility model is related to the field of intelligent control technology of LoRa Internet of Things modules, especially a kind of to be based on LoRa Internet of Things The Intelligent campus illumination management system of net module.

Background technology

With popularizing for Internet of Things, Intelligent campus management becomes the important symbol of school's intelligent management.Due to campus Area is wider, especially institution of higher learning, and in order to meet student life daily life, campus area is usually more big.In order to ensure student Safety, need in the more positions in campus setting headlamps, to meet the safety of student's campus life.On the road of the prior art It is usually later stage personnel maintenance and inspection during street lamp use in fluorescent tube reason, ensures the safe to use of street lamp.And pass through long-range Terminal, it is unified that all street lamps are turned on or off.

It can be seen that in the campus road lamp management of the prior art, maintenance personal's labor intensity is big, and street lamp server end The defects of unified management, causes headlamp to be used for a long time when there is no pedestrian, headlamp waste of resource.

Utility model content

The purpose of this utility model is to provide a kind of Intelligent campus illumination management system based on LoRa Internet of Things modules, Maintenance personal is facilitated to be monitored in server end to all campus headlamps, positioning record repairs it in time；It avoids The defects of when street lamp attachment does not have pedestrian, headlamp is opened for a long time, loss electric energy.

In order to achieve the above object, the utility model provides following technical solution：

A kind of Intelligent campus illumination management system based on LoRa Internet of Things modules, including：Headlamp, microcontroller, LoRa modules, the first photosensitive sensor and server；

On the outside of the lamp body for being located at the headlamp of first photosensitive sensor, the microcontroller and the LoRa moulds Block is located inside the lamp bracket of the headlamp, and the signal antenna of the LoRa modules stretches out lighting lamp stand outer wall；

The output terminal of first photosensitive sensor connects the signal input part of the microcontroller, and the LoRa modules are led to It crosses data line to connect with microcontroller, the server is located at the campus logistics management room, and the microcontroller passes through described LoRa modules are connect with server communication；

First photosensitive sensor can detect the real-time brightness of illumination value of the headlamp, and the first photosensitive sensor leads to Data line transfer is crossed to the microcontroller, the microcontroller can set the real-time brightness of illumination value and microcontroller Most dark reference brightness value be compared, when the real-time luminosity value be less than most dark reference brightness value when, the microcontroller leads to It crosses the LoRa modules and sends guarantee signal to the server；

The server indicates the microcontroller inside each headlamp different differentiation codes, and in the server Campus position where marking each microcontroller, when the microcontroller is to server transmission guarantee signal, the service Device controls the display screen of the server connection to show headlamp position；

Remote human body induction module is further included, the output terminal of the remote human body induction module connects microcontroller, The light switch of the output terminal connection headlamp of the microcontroller；The remote body block is able to detect that human body infrared Signal, and the human infrared signal can be converted into electric signal transmission to the microcontroller, the microcontroller can The electric signal is received, and controls the luminous lamp switch.

In a preferred embodiment, the lamp bracket of the headlamp be equipped with the second photosensitive sensor, described second The output terminal of photosensitive sensor connects the input terminal of the microcontroller, the output terminal connection of the microcontroller by data line The power switch of first photosensitive sensor, LoRa modules；

Second photosensitive sensor can detect the real-time lighting brightness value of the second photosensitive sensor position, And the real-time lighting brightness value can be transferred to the microcontroller, the microcontroller can illuminate the Real-Time Optical The reference light that angle value is set with microcontroller illuminates angle value and is compared, when the real-time lighting brightness value more than described with reference to bright During angle value, the microcontroller controls the disconnected of the first photosensitive sensor, the power switch disconnection of LoRa modules and light switch It opens, when the real-time lighting brightness value is less than the reference brightness value, the first photosensitive sensor of the microcontroller control, The power switch conducting of LoRa modules and the closure of light switch.

In a preferred embodiment, second photosensitive sensor is located at one of the lamp bracket far from headlamp Side.

In a preferred embodiment, the remote human body induction module is the remote human body sensing moulds of SL620 Block.

In a preferred embodiment, first photosensitive sensor and the second photosensitive sensor are CDs photosensitive Resistance.

In a preferred embodiment, it further includes：Temperature sensor；The output terminal connection of the temperature sensor is micro- The input terminal of controller, the temperature sensor are located on the outside of lighting lamp stand, campus environment real-time temperature values are detected, And the real-time temperature values are sent to the microcontroller, the microcontroller is sent to the service by the LoRa modules Device, display screen described in the server controls are shown.

In a preferred embodiment, it further includes：Humidity sensor, the output terminal connection of the humidity sensor are micro- The input terminal of controller, the humidity sensor are located on the outside of lighting lamp stand, and to campus environment, real-time humidity value is detected, And the real-time humidity value is sent to the microcontroller, the microcontroller is sent to the service by the LoRa modules Device, display screen described in the server controls are shown.

In a preferred embodiment, it further includes：Dust sensor, the output terminal connection of the dust sensor are micro- The input terminal of controller, the dust sensor are located on the outside of lighting lamp stand, and to campus environment, real-time PM2.5 numerical value is examined It surveys, and the real-time PM2.5 numerical value is sent to the microcontroller, the microcontroller is sent to institute by the LoRa modules Server is stated, display screen described in the server controls is shown.

In a preferred embodiment, the dust sensor is GP2Y1010AU0F dust sensors.

Above-mentioned technical proposal has following advantageous effect：

The Intelligent campus illumination management system based on LoRa Internet of Things modules is detected by the first photosensitive sensor and illuminated Whether lamp breaks down, and is sent to server monitoring in time；Detecting headlamp attachment by remote human body induction module is No someone, so as to control being turned on or off for the light switch of headlamp.It avoids in the prior art, campus street lamp needs to pacify It arranges special maintenance personnel to overhaul it, especially for the working condition for facilitating headlamp, night is needed to be overhauled, into one Step increases the labor intensity of maintenance personnel；The street lamp of the prior art by time-controlled mode, realizes street lamp It opens and closes, when being easy to cause headlamp attachment does not have pedestrian, headlamp is caused to consume electric energy, cause lacking for the wasting of resources It falls into.The Intelligent campus illumination management system based on LoRa Internet of Things modules detects headlamp by the first photosensitive sensor and exists The light conditions of the use of time, and pass through server monitoring, facilitate maintenance personal in server end to all campus headlamps It is monitored, positioning record repairs it in time；And luminous lamp switch is controlled by remote human body induction module, it avoids The defects of when street lamp attachment does not have pedestrian, headlamp is opened for a long time, loss electric energy.

Description of the drawings

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the structure of the headlamp of Intelligent campus illumination management system of the utility model based on LoRa Internet of Things modules Schematic diagram；

Fig. 2 is the first light sensor of Intelligent campus illumination management system of the utility model based on LoRa Internet of Things modules Device detects headlamp failure flow chart；

Fig. 3 is the remote human body sense of Intelligent campus illumination management system of the utility model based on LoRa Internet of Things modules The flow chart that module control headlamp is answered to be turned on or off；

Fig. 4 is the first light sensor of Intelligent campus illumination management system of the utility model based on LoRa Internet of Things modules The flow chart that device control headlamp is turned on or off；

Wherein, 1, lamp body, 2, lamp bracket.

Specific embodiment

Below in conjunction with the attached drawing of the utility model, the technical solution of the utility model is clearly and completely described, Obviously, the described embodiments are only a part of the embodiments of the utility model, instead of all the embodiments.Based on this practicality Embodiment in novel, the every other reality that those of ordinary skill in the art are obtained without creative efforts Example is applied, shall fall within the protection scope of the present invention.

With reference to shown in Fig. 1~Fig. 4, based on the Intelligent campus illumination management system of LoRa Internet of Things modules, including：Illumination Lamp, microcontroller, LoRa modules, the first photosensitive sensor and server.

1 outside of lamp body for being located at headlamp of first photosensitive sensor is (i.e.：It is located at the side outer wall table of headlamp illumination Face can effectively be detected the bright light situation of headlamp), microcontroller and LoRa modules are located at the lamp bracket 2 of headlamp Inside is (i.e.：Lamp bracket 2 is hollow-core construction, preferably equipped with installation door, microcontroller and LoRa modules is mounted on inside, led to Lamp bracket 2 is crossed to its protective effect, ensures microcontroller and the work well of LoRa modules), the signal antenna of LoRa modules stretches out Lighting lamp stand outer wall is avoided due to interference of the lamp bracket 2 to communication, the especially existing big more options stainless steel of 2 material of lamp bracket Material has the signal of LoRa modules certain shielding action.

First photosensitive sensor output terminal connection microcontroller signal input part, LoRa modules by data line with it is micro- Controller connects, and server is located at campus logistics management room, and microcontroller is connect by LoRa modules with server communication.

First photosensitive sensor can detect the real-time brightness of illumination value of headlamp, and the first photosensitive sensor passes through data line Microcontroller is transferred to, microcontroller can carry out the most dark reference brightness value of real-time brightness of illumination value and microcontroller setting Compare, when real-time luminosity value is less than most dark reference brightness value, microcontroller is sent to server by the LoRa modules and protected Repair signal.

Server indicates the microcontroller inside each headlamp different differentiation codes, and each in server mark Campus position where microcontroller, when microcontroller is to server transmission guarantee signal, server described in server controls The display screen of connection shows headlamp position.I.e.：It detects headlamp by the first photosensitive sensor and whether breaks down and (shine Bright lamp brightness is less than most dark reference brightness value), and it is sent to server monitoring in time, facilitate maintenance personal in server end to institute Some campus headlamps are monitored, in time positioning record, and maintenance personal is notified to repair headlamp.

The system further includes remote human body induction module, the output terminal connection microcontroller of remote human body induction module Device, the light switch of the output terminal connection headlamp of microcontroller.Remote body block is able to detect that human infrared signal, And human infrared signal can be converted into electric signal transmission to the microcontroller, microcontroller can receive the telecommunications Number, and control the luminous lamp switch.By remote human body induction module detect headlamp attachment whether someone, so as to control The light switch of headlamp is turned on or off.Can also pedestrian near headlamp be detected by remote human body induction module The distance between headlamp, and the controller is sent to, controller compares the distance and the reference distance of inner setting, When the distance is less than reference distance, luminous lamp switch closure of counting is controlled, the startup of headlamp is realized, avoids in street lamp attachment The defects of when not having pedestrian, headlamp is opened for a long time, loss electric energy.

The lamp bracket of headlamp is equipped with the second photosensitive sensor, and the output terminal of the second photosensitive sensor is connected by data line The input terminal of microcontroller, the first photosensitive sensor of output terminal connection of microcontroller, the power switch of LoRa modules.

Second photosensitive sensor can detect the real-time lighting brightness value of the second photosensitive sensor position, and can incite somebody to action Real-time lighting brightness value is transferred to microcontroller, what microcontroller can set the real-time lighting brightness value and microcontroller Reference light illuminates angle value and is compared, when real-time lighting brightness value is more than the reference brightness value, microcontroller control first Photosensitive sensor, the power switch disconnection of LoRa modules and the disconnection of light switch, when real-time lighting brightness value is less than described During reference brightness value, microcontroller controls the first photosensitive sensor, the power switch conducting of LoRa modules and light switch It is closed.Headlamp outside light conditions are detected (i.e. by the second photosensitive sensor：Daytime or night), it is real when at night Time illuminates angle value and illuminates angle value less than reference light, microcontroller control the first photosensitive sensor, LoRa modules power switch Conducting and the closure of light switch realize the first photosensitive sensor, LoRa modules and headlamp power supply, normal work.

In order to avoid the second photosensitive sensor is interfered by houselights photograph, the second photosensitive sensor is influenced to microcontroller The erroneous judgement input of device signal, the second photosensitive sensor are located at side of the lamp bracket far from headlamp.

Preferably, remote human body induction module is the remote human body induction modules of SL620.

Preferably, the first photosensitive sensor and the second photosensitive sensor are CDs photo resistance.

In order to facilitate monitoring of the school side administrative staff to school's temperature, facilitate and remind student note that being further ensured that student Health.The system further includes：Temperature sensor；The input terminal of the output terminal connection microcontroller of temperature sensor, temperature Sensor is located on the outside of lighting lamp stand, campus environment real-time temperature values is detected, and the real-time temperature values are sent to The microcontroller, microcontroller are sent to server by LoRa modules, and display screen described in server controls is shown.

In order to facilitate monitoring of the school side administrative staff to school's weather humidity, facilitate and remind student note that being further ensured that Student's health.The system further includes：Humidity sensor, the input terminal of the output terminal connection microcontroller of humidity sensor, Humidity sensor is located on the outside of lighting lamp stand, and to campus environment, real-time humidity value is detected, and the real-time humidity value is sent out The microcontroller is sent to, microcontroller is sent to server by the LoRa modules, screen display is shown described in server controls Show.

Serious due to environmental pollution, haze is especially serious to health, is learned especially for students in middle and primary schools, kindergarten Raw body resistance force difference, is easy to cause the diseases such as flu, in order to facilitate detection of the school side to school internal environment PM2.5, this is System further includes：Dust sensor, the input terminal of the output terminal connection microcontroller of dust sensor, dust sensor are located at illumination On the outside of lamp lamp bracket, to campus environment, real-time PM2.5 numerical value is detected, and the real-time PM2.5 numerical value is sent to microcontroller, Microcontroller is sent to the server by LoRa modules, and display screen described in server controls is shown.

Preferably, dust sensor is GP2Y1010AU0F dust sensors.

Preferably, the microcontroller is Media MT7620 chips.

The above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to In this, in the technical scope that any one skilled in the art discloses in the utility model, variation can be readily occurred in Or replace, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be described with power Subject to the protection domain of profit requirement.

Claims (9)

1. a kind of Intelligent campus illumination management system based on LoRa Internet of Things modules, which is characterized in that including：It is headlamp, micro- Controller, LoRa modules, the first photosensitive sensor and server；

On the outside of the lamp body for being located at the headlamp of first photosensitive sensor, the microcontroller and the LoRa modules are set Inside the lamp bracket of the headlamp, the signal antenna of the LoRa modules stretches out lighting lamp stand outer wall；

The output terminal of first photosensitive sensor connects the signal input part of the microcontroller, and the LoRa modules pass through number It is connect according to line with microcontroller, the server is located at the campus logistics management room, and the microcontroller passes through the LoRa Module is connect with server communication；

First photosensitive sensor can detect the real-time brightness of illumination value of the headlamp, and the first photosensitive sensor passes through number The microcontroller is transferred to according to line, the microcontroller can set the real-time brightness of illumination value and microcontroller most Dark reference brightness value is compared, and when the real-time luminosity value is less than most dark reference brightness value, the microcontroller passes through institute It states LoRa modules and sends guarantee signal to the server；

The server indicates the microcontroller inside each headlamp different differentiation codes, and is marked in the server Campus position where each microcontroller, when the microcontroller is to server transmission guarantee signal, the server control The display screen for making the server connection shows headlamp position；

Remote human body induction module is further included, the output terminal connection microcontroller of the remote human body induction module is described The light switch of the output terminal connection headlamp of microcontroller；The remote body block is able to detect that human body infrared is believed Number, and the human infrared signal can be converted into electric signal transmission to the microcontroller, the microcontroller can connect The electric signal is received, and controls the luminous lamp switch.

2. the Intelligent campus illumination management system according to claim 1 based on LoRa Internet of Things modules, which is characterized in that The lamp bracket of the headlamp is equipped with the second photosensitive sensor, and the output terminal of second photosensitive sensor is connected by data line The input terminal of the microcontroller, the output terminal of the microcontroller connects the first photosensitive sensor, the power supply of LoRa modules is opened It closes；

Second photosensitive sensor can detect the real-time lighting brightness value of the second photosensitive sensor position, and energy Enough that the real-time lighting brightness value is transferred to the microcontroller, the microcontroller can be by the real-time lighting brightness value Angle value is illuminated with the reference light of microcontroller setting to be compared, when the real-time lighting brightness value is more than the reference brightness value When, the microcontroller controls the first photosensitive sensor, the power switch of LoRa modules disconnects and the disconnection of light switch, when When the real-time lighting brightness value is less than the reference brightness value, the microcontroller controls the first photosensitive sensor, LoRa moulds The power switch conducting of block and the closure of light switch.

3. the Intelligent campus illumination management system according to claim 2 based on LoRa Internet of Things modules, which is characterized in that Second photosensitive sensor is located at side of the lamp bracket far from headlamp.

4. the Intelligent campus illumination management system according to claim 1 based on LoRa Internet of Things modules, which is characterized in that The remote human body induction module is the remote human body induction modules of SL620.

5. the Intelligent campus illumination management system according to claim 2 based on LoRa Internet of Things modules, which is characterized in that First photosensitive sensor and the second photosensitive sensor are CDs photo resistance.

6. the Intelligent campus illumination management system according to claim 1 based on LoRa Internet of Things modules, which is characterized in that It further includes：Temperature sensor；The input terminal of the output terminal connection microcontroller of the temperature sensor, the temperature sensor are set On the outside of lighting lamp stand, campus environment real-time temperature values are detected, and the real-time temperature values are sent to the micro-control Device processed, the microcontroller are sent to the server by the LoRa modules, screen display are shown described in the server controls Show.

7. the Intelligent campus illumination management system according to claim 1 based on LoRa Internet of Things modules, which is characterized in that It further includes：Humidity sensor, the input terminal of the output terminal connection microcontroller of the humidity sensor, the humidity sensor are set On the outside of lighting lamp stand, to campus environment, real-time humidity value is detected, and the real-time humidity value is sent to the micro-control Device processed, the microcontroller are sent to the server by the LoRa modules, screen display are shown described in the server controls Show.

8. the Intelligent campus illumination management system according to claim 1 based on LoRa Internet of Things modules, which is characterized in that It further includes：Dust sensor, the input terminal of the output terminal connection microcontroller of the dust sensor, the dust sensor are set On the outside of lighting lamp stand, to campus environment, real-time PM2.5 numerical value is detected, and the real-time PM2.5 numerical value is sent to institute Microcontroller is stated, the microcontroller is sent to the server by the LoRa modules, is shown described in the server controls Display screen is shown.

9. the Intelligent campus illumination management system according to claim 8 based on LoRa Internet of Things modules, which is characterized in that The dust sensor is GP2Y1010AU0F dust sensors.