CN213073198U - Insecticidal lamp control system based on Internet of things - Google Patents

Abstract

The utility model discloses an insecticidal lamp control system based on thing networking, including microcontroller networking module and backstage host computer, microcontroller electric connection has first relay and second relay, and first relay electric connection has the master control, and second relay electric connection has single lamp switch on-off control, microcontroller electric connection has sensor module, charging module, insecticidal module and communication module, and charging module and insecticidal module, communication module and sensor module electric connection; the utility model discloses a be equipped with backstage host computer, microcontroller and networking module, increase thing networking integrated control module based on current traditional insecticidal lamp product, use wireless thing networking communication technology to realize that traditional insecticidal lamp equips the cloud, integrated GPS location and single lamp independent control function can spread into cloud platform with data into, can visit data and system management function at any time through Web, PC and mobile client.

Description

Insecticidal lamp control system based on Internet of things

Technical Field

The utility model relates to a thing networked control module technical field specifically is a control system based on thing networking insecticidal lamp.

Background

In agricultural planting, deinsectization is an essential procedure, and the following two deinsectization modes are mainly used in the industry at present: firstly, chemical pesticide is used for killing insects, and the method is easy to cause pollution to crops and fruits; secondly, the insect killing is carried out by combining a single power grid with an insect attracting lamp, and the method has the problems of low insect killing efficiency and manual regular cleaning; meanwhile, the two pest control modes do not have the function of adjusting the working state and the remote control according to the pest control environment, the use is not intelligent enough, an Internet of things integrated control module is added on the basis of the existing traditional pest control lamp product, the traditional pest control lamp is equipped with a cloud by applying the wireless Internet of things communication technology, the GPS positioning and single lamp independent control functions are integrated, data can be transmitted into a cloud platform, and the data and system management functions can be accessed at any time through Web, a PC and a mobile client.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a control system based on thing networking insecticidal lamp to solve the problem that proposes in the above-mentioned background art.

The utility model provides a following technical scheme:

the utility model provides a pest control lamp control system based on thing networking, includes microcontroller networking module and backstage host computer, microcontroller electric connection has first relay and second relay, first relay electric connection has the master control, second relay electric connection has single lamp switch on-off control, microcontroller electric connection has sensor module, the module of charging, pest killing module and communication module, the module of charging and pest killing module, communication module and sensor module electric connection, microcontroller with the backstage host computer passes through networking module connects, microcontroller controls and input and output to each module.

Preferably, the sensor module further comprises a temperature and humidity sensor, a GPS module, an antenna, a gyroscope, and an illumination sensor, wherein the temperature and humidity sensor is used for detecting the temperature and humidity of the weather, transmitting the weather state information to the microcontroller, judging whether it rains currently, turning off the device when it rains, the GPS module is used for acquiring positioning data and feeding the positioning data back to the microcontroller, when the positioning offset is greater than a set threshold, actively reporting an alarm to prompt that the current state is abnormal, the gyroscope is used for judging the inclination of the lamp tube and transmitting the measured data to the microcontroller, when the offset is greater than the set threshold, actively reporting an alarm to prompt that the current state is abnormal, the illumination sensor is used for judging the luminous flux in a unit area and transmitting the measured data to the microcontroller, the microcontroller switches off the device when the luminous flux per unit area is less than a set threshold.

Preferably, the insecticidal module still includes high voltage electric network and moth-killing lamp, and the moth-killing lamp with microcontroller electric connection, high voltage electric network is used for the worm of electric shock contact, the moth-killing lamp is used for attracting the punching pin and gets into high voltage electric network.

Preferably, the charging module further comprises an MPPT algorithm and a solar panel, the MPPT algorithm is electrically connected to the solar panel, and the solar panel is charged through the MPPT algorithm to provide power for other modules.

Preferably, the communication module is connected to the cloud server through a mobile communication network, and is configured to transmit data to the cloud server, or receive a remote control instruction of the cloud server, and the mobile communication network is G, G or WIFE.

Preferably, the first relay is used for controlling the overall control, and the second relay is used for controlling the single lamp switch control.

The utility model has the advantages that:

the utility model discloses a through being equipped with backstage host computer, microcontroller and networking module, increasing thing networking integrated control module based on current traditional insecticidal lamp product, use wireless thing networking communication technology to realize that traditional insecticidal lamp equips the cloud, integrate GPS location and single lamp independent control function, can spread data into cloud platform, can visit data and system management function at any time through Web, PC and mobile client; by arranging the microcontroller, the sensor module and the insect killing module, the lamp can be remotely controlled and the working time can be set through the platform of the Internet of things, the working state information of the equipment such as the switch mode, the timing time, the lamp tube state, the light control, the rain control, the temperature control, the dumping, the signal intensity, the air temperature, the humidity, the electric shock frequency, the timing time, the charging voltage, the current, the longitude and latitude numerical values and the like can be checked at any time, the air temperature and humidity data and the insecticidal quantity per hour can be displayed in real time in the form of a chart and a line graph, so that the insecticidal data is counted, the preparation is made for the subsequent data analysis, the insecticidal data and the environmental data of the corresponding time are uploaded and stored in real time through the communication module, the basis is laid for the further analysis and research, meanwhile, the deinsectization lamp can be turned on in a time control mode according to habits of insects, and therefore energy is saved while the deinsectization efficiency is improved.

Drawings

FIG. 1 is a block diagram of the system for killing insects by the insecticidal lamp of the present invention;

fig. 2 is the schematic diagram of the electrical connection structure of the components of the present invention.

In the figure: 1-an internet of things module; 2-a GPS module; 3-an antenna; 4-a gyroscope; 5-a temperature and humidity sensor; 6-an illumination sensor; 7-a camera; 8-a microcontroller; 9-a first relay; 10-a second relay; 11-SIM card.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figures 1-2, an insecticidal lamp control system based on internet of things comprises a microcontroller 8 networking module and a background host, wherein the background host and the microcontroller are matched to be responsible for communication with the networking module, management equipment connection, data analysis, photo collection and the like, maintenance equipment and installation point information addition, equipment operation data display and action data analysis, alarm analysis and API (application program interface) interface, equipment installation and debugging, a butt joint analysis platform is reserved, insect library establishment and insect species identification are realized, the microcontroller 8 is electrically connected with a first relay 9 and a second relay 10, the first relay 9 is electrically connected with a total electric control, the second relay 10 is electrically connected with a single-lamp switch control, the microcontroller 8 is used for realizing remote control, the total electric control, the single-lamp switch control, the timed lamp-on control and the charging task of the microcontroller 8 control equipment, The insect killing task, the task of communicating with a background host and the task of reading sensor data, wherein the microcontroller 8 is electrically connected with a sensor module, a charging module, an insect killing module and a communication module, the charging module is electrically connected with the insect killing module, the communication module and the sensor module, the microcontroller 8 is connected with the background host through the networking module 1 and is in signal connection with the background host, the microcontroller 8 controls and inputs and outputs the modules, the sensor module further comprises a temperature and humidity sensor 5, a GPS module 2, an antenna 3, a gyroscope 4 and an illumination sensor 6, the antenna 3 is used for enhancing signals of the sensor module, the type of the temperature and humidity sensor 5 is JWSK-6, the temperature and humidity sensor 5 is used for detecting the temperature and humidity of weather and transmitting weather state information to the microcontroller 8 to judge whether the weather is raining at present, the device is closed by the microcontroller 8 when raining, the GPS module 2 is used for acquiring positioning data and feeding the positioning data back to the microcontroller 8, when the positioning offset is larger than a set threshold value, an alarm is actively reported to prompt that the current state is abnormal, the gyroscope 4 is used for judging the inclination condition of the lamp tube and transmitting the measured data to the microcontroller 8, when the offset is larger than the set threshold value, an alarm is actively reported to prompt that the current state is abnormal, the model of the illumination sensor 6 is JZ-HB, the illumination sensor 6 is used for judging the luminous flux on a unit area and transmitting the measured data to the microcontroller 8, when the luminous flux on the unit area is smaller than the set threshold value, the microcontroller 8 closes the device, and the device is matched with the microcontroller 8 through the sensor module and can be positioned through the lamp tube state and the GPS, The temperature and the humidity of the air, the insecticidal quantity and the image information are controlled and adjusted, the abnormal situation of the lamp tube inclination, the abnormal situation of the lamp tube, the abnormal situation of the battery and the abnormal situation of the high-voltage grid can be judged, the data are transmitted to the microcontroller 8, the air control is carried out through the microcontroller 8, the insecticidal module further comprises the high-voltage grid and an insect-attracting lamp, the insect-attracting lamp is BM921 in model and is electrically connected with the microcontroller 8, the high-voltage grid is used for electrically shocking the contacted insects, the insect-attracting lamp is used for attracting a punch to enter the high-voltage grid and increasing the insecticidal efficiency, the charging module further comprises an MPPT algorithm and a solar panel, the MPPT algorithm is electrically connected with the solar panel, the solar panel is charged through the MPPT algorithm and provides a power supply for other modules, the communication module is connected with a cloud server through a mobile communication network and is used for transmitting, or a remote control instruction of the cloud server is received, the mobile communication network is one of 4G, 5G or WIFE, the first relay 9 is used for controlling the overall control, and the second relay 10 is used for controlling the single lamp switch control.

The specific using process is as follows: when in use, the measured data is transmitted to the microcontroller 8 through the sensor module, the microcontroller 8 controls the insect killing module, insects are attracted through the insect attracting lamp, then, the insects are killed by clicking the insects through the high-voltage power grid, the charging module provides electric energy for the equipment, the measured data is transmitted to the background host machine in real time through the microcontroller 8, meanwhile, the background host machine can control the microcontroller 8, the utility model is provided with the background host machine, the microcontroller 8 and the networking module 1, adds an Internet of things integrated control module based on the existing traditional insecticidal lamp product, realizes the cloud-up of the traditional insecticidal lamp by applying the wireless Internet of things communication technology, integrates the functions of GPS positioning and single lamp independent control, the data can be transmitted to a cloud platform, and the data and system management functions can be accessed at any time through Web, a PC and a mobile client; through being equipped with microcontroller 8, sensor module and insecticidal module, can remote control switch lamp and set for operating time through thing networking platform, look over the on-off mode of equipment at any time, time length at regular time, fluorescent tube state, light-operated, rain accuse, control by temperature change, empty, signal strength, air temperature, humidity, electric shock number of times, time length at regular time, operating condition information such as charging voltage, electric current, longitude and latitude numerical value, and air temperature humidity data and insecticidal quantity can be shown in real time with the form of chart and broken line graph per hour.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a pest control system based on thing networking which characterized in that includes: the system comprises a microcontroller, a networking module and a background host; microcontroller electric connection has first relay and second relay, first relay electric connection has the master control, second relay electric connection has single lamp switch on-off control, microcontroller electric connection has sensor module, the module of charging, insecticidal module and communication module, the module of charging and insecticidal module, communication module and sensor module electric connection, microcontroller with the backstage host computer passes through networking module connects, microcontroller controls and input and output to each module.

2. The internet-of-things-based insecticidal lamp control system according to claim 1, characterized in that: the sensor module also comprises a temperature and humidity sensor, a GPS module, an antenna, a gyroscope and an illumination sensor; the temperature and humidity sensor is used for detecting the temperature and humidity of weather, transmitting weather state information to the microcontroller, judging whether rain is present or not, and turning off equipment when the microcontroller is raining; the GPS module is used for acquiring positioning data, feeding the positioning data back to the microcontroller, and actively reporting an alarm to prompt that the current state is abnormal when the positioning offset is larger than a set threshold; the gyroscope is used for judging the inclination condition of the lamp tube, transmitting the measured data to the microcontroller, and actively reporting an alarm to prompt that the current state is abnormal when the offset is greater than a set threshold value; the illumination sensor is used for judging the luminous flux on the unit area and transmitting the measured data to the microcontroller, and when the luminous flux on the unit area is smaller than a set threshold value, the microcontroller closes the equipment.

3. The internet-of-things-based insecticidal lamp control system according to claim 1, characterized in that: the insect killing module further comprises a high-voltage power grid and an insect attracting lamp, the insect attracting lamp is electrically connected with the microcontroller, the high-voltage power grid is used for electrically shocking insects in contact, and the insect attracting lamp is used for attracting the punches to enter the high-voltage power grid.

4. The internet-of-things-based insecticidal lamp control system according to claim 1, characterized in that: the charging module further comprises an MPPT algorithm and a solar panel, the MPPT algorithm is electrically connected with the solar panel, and the solar panel is charged through the MPPT algorithm and provides power for other modules.

5. The internet-of-things-based insecticidal lamp control system according to claim 1, characterized in that: the communication module is connected with the cloud server through a mobile communication network, and is used for transmitting data to the cloud server or receiving a remote control instruction of the cloud server, and the mobile communication network is one of 4G, 5G or WIFE.

6. The internet-of-things-based insecticidal lamp control system according to claim 1, characterized in that: the first relay is used for controlling the overall control, and the second relay is used for controlling the single lamp switch control.

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