Sensor 3D Models

Find the best Sensor 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Anonymous1779547904

Create a realistic 3D animation of an IoT-Based Dog Feeding and Monitoring System with Mobile Control inspired by the uploaded image. Use a transparent acrylic and wood design with blue LED lights, visible ESP32-WROOM, ultrasonic sensor, servo motor, relay module, water pump, LCD display, water level sensor, food container, and transparent water tank. Show stainless bowls below. Animate a dog approaching, ultrasonic sensor detecting movement, servo motor dispensing food, and water pump filling the bowl. Display glowing labels and connection lines for each component. Show mobile app notifications, feeding schedule, WiFi connection, and real-time monitoring. Add cinematic rotating camera shots, realistic shadows, organized wiring, futuristic smart home style, and exploded-view animation of all electronic components. Use 4K ultra realistic rendering and make it look like a professional BSIT capstone prototype presentation.

Anonymous1779544797

바다에 있는 부표이고 부표에 신호등이 있어 부표 윗부분에 신호등이 있고 아랫부분에는 진동을 느끼는 센서가 있어 그 센서로 파도가 위험하면 신호등에서 빨간불이 나오고 빨간불이 나올떄 부표 안에 장착된 스피커에서 당장 나가라고 방송을 하고 나중에 위험해질거 같으면 노란색불이 들어오고 잠시후에 위험해질수 있다고 방송해 그리고 적당하면 초록색 불이 들어와 도면으로 그려줘

Anonymous1779457437

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Anonymous1772564973

A close-up, photorealistic engineering render of a specialized smart lighting controller device prototype, isolated on a solid white background. The heavy-duty gray IP66 waterproof plastic enclosure features **two prominent threaded conduit knockouts and rubber-grommeted wire entrance holes on the bottom and back walls, completely open and ready for external electrical wiring hooks**. The device is floating standalone—**no street light poles, no arms, and no lamps are rendered anywhere in the image**. The enclosure's front features a clear, translucent protective shield revealing the dense electronic array. The core focus is on the exposed sensor hardware: a prominent **cylindrical digital camera lens assembly with a visible optical sensor**, directly adjacent to a **circular microwave radar sensor plate with its spiral metallic antenna paths**. Next to them sits a **clear GL5528 LDR photoresistor light sensor**, all cleanly wired to an internal ESP32-S3 CAM board. Industrial design, c

Anonymous1779444100

A close-up, photorealistic engineering render of a specialized smart lighting controller device prototype, isolated on a white background. The heavy-duty gray IP66 waterproof plastic enclosure has a clear, translucent top cover, revealing the densely packed electronics within. The central focus is on a vertical stack of complex sensors. Prominently displayed is a distinctive **digital camera lens assembly with a visible image sensor array (labeled OV3660)** looking outward. Directly adjacent is a **circular microwave radar sensor plate with its spiral antenna pattern clearly visible (labeled RCWL-0516)**. Further down, a **domed Fresnel lens for a PIR motion detector** sits next to a **clear GL5528 photoresistor (LDR) ambient light sensor**. These sensors are all securely wired to a central **ESP32-S3 CAM development board**. Industrial design, exploded diagram lighting, macro textures, high resolution, precise labels pointing to each sensor type.

Anonymous1779444100

Develop smart assistive glasses capable of obstacle detection using:

Arduino Nano
HC-SR04 ultrasonic sensor
Active buzzer
3.7V LiPo battery
Internal wiring system

The model MUST already include:

Correct electronic housing dimensions
Proper sensor slots
Internal mounting structure
Cable routing channels
Functional compartments
Removable covers
Realistic assembly logic

DO NOT generate decorative or fake electronics details.
DO NOT generate sci-fi fantasy glasses.
DO NOT ignore real component dimensions.

This must be a practical engineering-focused wearable device.

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OVERALL DIMENSIONS
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Adult wearable dimensions:

Total frame width: 140–145 mm
Lens height: 40–45 mm
Temple arm length: 140–150 mm
Bridge width: 18–20 mm

Design must include:

Ergonomic facial curvature
Comfortable nose bridge
Rounded edges
Lightweight appearance
Structurally reinforced geometry
Realistic thickness distribution

Frame thickness:

External frame walls: 2.5–3 mm
Structu

Anonymous1751599072

Generate a 3D model for my IoT based 7 in 1 soil nutrient detector device and use these componenets: ESP32 DevKit V1, 7 in 1 sensor probe, SIM800L GSM Module, ILI9341 TFT LCD, 18650 Lithium Battery, TP4056 Charging Module, 20W Solar Panel, LM2596 Buck Converter, MAX485 TTL to RS485 Module, MicroSD Card Module, Active Buzzer Module, RGB LED Module, IP65 Waterproof Project Box, cable connectors, soldering iron and lead, LED lights.

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