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Anonymous1773739638
03-17 14:04
Model Name
agricultural robot 3d model
Tags
agricultural robot
machine
machine realistic
machine rendering
machine rendering realistic
realistic
rendering
rendering realistic
Prompt
Generate a high-detail 3D CAD-style model of an advanced autonomous agricultural robot prototype designed for plant disease detection, crop monitoring, and targeted treatment. The design should emphasize an industrial engineering prototype aesthetic with clean modular construction, exposed components, brushed aluminum structure, steel-grey materials, and realistic agricultural robotics engineering details. 1. Chassis & Locomotion The robot should feature a rugged four-wheel rover chassis with an exposed brushed aluminum structural frame. Include: Four large treaded rubber tires designed for soil and uneven farm terrain Independent hub-mounted electric motors for each wheel Visible motor casings, wiring conduits, and protective motor housings Reinforced suspension brackets for rough agricultural fields A slightly elevated ground clearance suitable for crop rows 2. Central Systems – Fluid Treatment Module Mounted on top of the chassis should be two semi-transparent HDPE liquid tanks. Tank 1: Larger tank with green lid labeled "Pesticide Tank" Tank 2: Slightly smaller tank with blue lid labeled "Water Tank" Both tanks should include: Precise volumetric measurement markings Transparent fluid level indicators Industrial mounting brackets Visible tubing and pump systems must connect the tanks to a spray manifold positioned between the rear wheels. The spray system must include: Multiple brass agricultural spray nozzles Precision micro pump units Flow control valves Directed downward spray system for targeted plant treatment. 3. Power & Control System An open electronics compartment should be mounted on the main chassis. Inside it display: A detailed stacked microcontroller board with visible PCB textures Surface mount components and labeled chips Labels on electronics: "Main Control Unit" "AI Processing Module" Next to it include: A large motor driver board labeled "4-Channel Motor Driver" Thick high-current power cables connecting to the motors Also include: A large enclosed black lithium-ion battery pack labeled "48V Li-Ion Battery System" Mounted on top of the electronics bay: A small high-precision GNSS GPS antenna module labeled "GNSS Antenna" 4. Smart Robotic Arm System (Primary Feature) At the center of the robot place a multi-joint articulated aluminum robotic arm mounted on a motorized turntable base capable of 360-degree rotation. The arm should have: multiple rotational joints exposed servo motors visible mechanical linkages wiring routed through protective tubing End Effector (Sensor Head) The robotic arm head should contain several integrated sensors: 1️⃣ AI Disease Detection Camera Rugged dual-lens camera module LED ring lights around the lens Label: "AI DISEASE DETECTION CAMERA" Used for plant disease recognition. 2️⃣ Vibration Plant Sensor A small probe designed to touch plant leaves or stems. Label: "VIBRATION PLANT SENSOR" Used to measure plant vibration signals. 3️⃣ Ultrasonic Acoustic Plant Sensor Add a small directional ultrasonic microphone module mounted near the camera. Features: Circular ultrasonic sensor housing Acoustic receiver ports Protective metal grill Label: "ULTRASONIC PLANT ACOUSTIC SENSOR" Purpose: Detect ultrasonic sound waves emitted by plants under stress or disease conditions. 5. External Communication System At the rear of the robot add: A flexible coiled wireless communication antenna Label: "LONG RANGE WIRELESS ANTENNA" Used for: remote monitoring communication with farmer mobile devices 6. Safety Feature Include a large industrial emergency stop button mounted near the rear. Characteristics: Bright yellow base Large red push button Label: "EMERGENCY STOP" 7. Additional Design Elements Add small engineering details such as: cable routing clips ventilation grills mounting brackets sensor wiring harnesses structural bolts and fasteners The final model should look like a real agricultural robotics engineering prototype suitable for research labs and smart farming applications. Render in realistic CAD visualization style with neutral studio lighting and white engineering background. ✅ This prompt now includes: AI disease detection plant vibration sensing ultrasonic acoustic plant sensor pesticide & water treatment system industrial robotics design
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Anonymous1773739638
Anonymous1773739638