High altitude insect detection lamp

Name: High altitude insect detection lamp

High altitude insect detection lamp Using high-altitude projected light source, high-altitude migratory pests will fly to the light source after being attracted by the light source.

Main purpose:

The High Altitude Insect Detection Lamp is specially developed and designed to monitor the migration dynamics of high-altitude migratory pests such as Spodoptera Frugiperda. It can effectively predict the population dynamics of migratory pests and has a strong trapping effect.

Analyze and predict the occurrence and development of pests, provide services for modern agriculture, and meet the needs of pest prediction and specimen collection.

How it works:

The High Altitude Insect Detection Lamp utilizes the phototaxis of pests and shines a line of light towards high altitude. When high-altitude migratory pests invade the area monitored by the detection lamp, they will be attracted by the light source and fly towards the light source. During the flight, they will hit Hit the screen and fall into the processing chamber.

Using modern light, electricity, CNC and other technologies, we have realized the functions of trapping pests, high-temperature insecticides, conveyor belts for transportation, and automatic operation of the entire lamp. System operations such as insect trapping, insect killing, insect dispersion, photography, transportation, collection, and drainage can be completed automatically without human supervision, and then wireless transmission technology and Internet of Things technology can be used to upload environmental weather and insect pest conditions in real time. Go to the designated agricultural cloud platform.

Power supply method: 220VAC. Due to the large power of the whole machine, it cannot be equipped with solar power supply.

Equipment power consumption: Complete machine power consumption: ≤1500W; Standby power consumption ≤4W;

Working environment: 0~70℃, 0~85% (relative humidity), no condensation

Insulation resistance: ≥2.5MΩ (leakage protection)

High altitude insect detection lamp main structure:

Overall machine size: 2102mm*840mm*840mm.

The insect alarm instrument is equipped with an installation base by default, with a base height of 40cm, to prevent rainwater from pouring back into the central control box during the rainy season.

The High Altitude Insect Detection Lamp consists of an insect trap, impact plate, insect killing device, high-definition camera, Android main control system, mechanical components, rain and snow sensor, light sensor, professional metal box frame, installation base, etc.

Insect trap:

1000W metal halogen searchlight, irradiation height 500-1000m.

Lamp start time ≤5S.

There are impact screens around the insect trap. The impact screens are made of high-transparent glass and form an angle of 120 degrees to each other. The size of the single screen is: 595±2mm long, 213±2mm wide and 5mm thick.

Pesticide device:

The upper and lower far-infrared insect body treatment warehouses have a lethality rate of not less than 98% and a completion rate of not less than 95%.

After the far-infrared insect body treatment chamber works for 15 minutes, the temperature can reach 85℃±5℃.

Camera parameters:

This device supports a 5-megapixel camera, and the camera adopts a plug-in method to facilitate on-site replacement.

The camera can collect the status of insects on the conveyor belt in real time, and the clarity of the captured images can meet the requirements for manual identification of insect species.

Android main control system:

The main control system uses a 7-inch Android system touch screen.

Supports local viewing of real-time device status, changing device working mode, and individually controlling the startup and operation of each component of the device.

Supports local backup, viewing, and resumable upload of insect photos.

Supports remote upgrade program, GPS positioning, automatic time adjustment, local setting parameters, camera debugging and other functions.

Communication method:

Supports 4G communication, Ethernet RJ45 communication, and WiFi communication.

Mechanical components:

The interior of the box contains insect rain baffles, insecticidal baffles, drying baffles, vibration devices, insect removal devices, fill lights, cameras and other mechanical devices and control execution equipment.

The vibration device of the High Altitude Insect Detection Lamp can vibrate the trapped insects, so that the insects can be spread evenly on the conveyor belt to avoid accumulation of insects and ensure that the characteristics of each insect can be clearly photographed, and cooperate with the platform software AI analysis The identification system can ensure that insects trapped in different time periods are not confused.

Rain control technology:

The on-site weather conditions are detected through the rain and snow sensor. It operates normally when there is no rain or snow, and stops when there is rain or snow.

After identifying rain and snow weather, control the opening and closing direction of the insect rain baffle to achieve insect rain separation.

Light control technology:

The light sensor detects the light intensity of the scene and is not affected by instantaneous strong light.

When the illumination is less than the program set value, the control device operates normally; when the illumination is greater than the program set value, the control device stops running.

Time control technology:

You can set the working start time, working duration, single working cycle time, insect trap light turning on time, delay turning on time after rain, etc.

Working mode:

Supports automatic working mode, manual working mode, and working mode switching.

Automatic working mode workflow: High-altitude migrating pests are attracted by the searchlight source → fly towards the light source → crash into the impact plate → fall into the insecticide chamber after impact → kill the insects at high temperature in the insecticide chamber → flip the insecticide baffle → Insect carcasses fell into the drying bin →dried The dry warehouse performs high-temperature drying. After drying is completed → the drying baffle flips → the insect carcasses fall on the vibrating plate → the vibrating plate starts → the insect carcasses are laid flat on the conveyor belt → the conveyor belt will transport the flying insect carcasses to the camera → Take a photo → upload the photo to the server.

Introduction to manual working mode: Supports controlling the operation of each mechanical component through the cloud platform and insect monitoring APP.

High altitude insect detection lamp installation method:

(1) Choose the installation location of the insect detection cabinet, prefabricate a flat hard cement platform in advance as much as possible, and then drill holes according to the fixed size of the base.

(2) Use the expansion screws in the accessories to install them into the 8 holes.

(3) Match the 8 expansion screw holes of the raised welding feet at the four corners of the equipment support column, and tighten them with a wrench.

Insect situation reporting platform:

The insect reporting platform can log in and manage accounts according to different permissions, and can allocate accounts with different permissions of at least level 8 or above.

The insect information reporting platform can remotely view the current working status of each component of the High Altitude Insect Detection Lamp, and the status can be stored and historical records can be viewed.

Users of the pest forecasting and reporting platform can add pest types.

The pest forecasting and reporting platform has statistical charts of changes in pest species and quantities by region and time, including bar charts and line charts.

The insect situation forecasting and reporting platform uses the second-generation insect situation database to conduct AI automatic analysis. At the same time, users can make corrections to the AI analysis results by themselves.

Secondary development:

A professional pest reporting platform and APP client are provided free of charge, and the platform can provide API interfaces.

High altitude insect detection lamp can provide SDK development interface based on java and C#.