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Sensor module 3D Models

Find the best Sensor module 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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Anonymous1774182923
Design a simple 3D printable clip-on enclosure for a TCRT5000 infrared sensor module. Requirements: - The sensor module size is approximately 30 mm (length) - Include a rectangular internal slot to fit the sensor (32 mm × 15 mm × 10 mm clearance) - The IR sensing area is 10 mm, so create a front opening window (10 mm wide) - Clip-on design to attach to a cylindrical IV drip chamber (diameter 25 mm) - C-shaped clip, easy to attach and remove CRITICAL: - Add a short light-blocking tunnel in front of the sensor (length 5–8 mm) - Add a wire exit hole (5 mm diameter) at the back - Ensure wires are routed backward and do not block the sensing area - Sensor should face inward toward the drip chamber - Distance from sensor to chamber: 2–5 mm - Simple, minimal, engineering functional design - Suitable for FDM 3D printing Material: matte black PLA The wire hole and sensor opening MUST be clearly visible in the design.
Anonymous1773843464
Design a simple, 3D printable finger clip enclosure for a MAX30102 pulse oximeter sensor. Requirements: - Compact, minimalistic engineering design - Finger slot width 20 mm, height 12 mm - Internal space to securely hold the sensor module - Include wire exit hole (5 mm diameter) at the back or bottom - Optional internal cable routing channel - Ensure wires do not interfere with finger placement or sensor light path - Light-blocking walls around the sensor - Smooth edges for comfort - Suitable for FDM 3D printing Material: PLA or ABS
Anonymous1773843464
"Generate a minimalistic, minimalistic handheld infrared thermometer enclosure base (not a flattened consumer product with buttons).Form Factor: Prioritize an ergonomic, gun-shaped handle suitable for a human palm grip. The entire design must facilitate hand-pointing at a target.Front Probe: At the very top front, create a distinct, integrated cylindrical probe housing.Probe Opening: Ensure the center of this probe housing has a clear, deep, circular opening ($\varnothing10mm$) to reveal the sensor module's metal can (specifically for an MLX90614 sensor head).Wiring Access: Along the bottom edge of the entire handle frame, design a clean, accessible internal cable routing channel. At the base of the handle, create one single, circular exit hole (approx. 6mm dia.).Focus on clean, practical geometries for FDM 3D printing, with smooth edges and an obvious, functional front-pointing probe orientation."
Anonymous1773843464
Design a simple handheld 3D printable enclosure for an MLX90614 infrared temperature sensor. Requirements: - Ergonomic handheld design, similar to a simplified thermometer gun - Front cylindrical sensor housing (length 20 mm) with a circular opening (10 mm diameter) - Internal slot to securely hold MLX90614 sensor module - Include a handle for easy grip (length 90 mm) - Add cable exit hole (6 mm diameter) at the back of the handle - Provide internal space for wiring - Smooth rounded edges for comfort - Ensure clear line-of-sight for non-contact temperature measurement - Compact and lightweight - Engineering design, not decorative - Suitable for FDM 3D printing Material: PLA or ABS
Anonymous1773843464
Anonymous1773806684
Anonymous1742414495
Anonymous1773769222
Anonymous1773724856
Anonymous1773688102
Low poly clean hard surface 3D model of an MPU6050 GY-521 IMU sensor module. Small rectangular blue PCB board approximately 21mm by 16mm and about 2mm thick. Two circular mounting holes on opposite corners. One row of 8 male header pins on one side with black plastic base and silver metal pins. One central square black integrated circuit chip. Several small rectangular SMD resistors and capacitors. One small yellow capacitor near the top edge. White PCB silkscreen labels: VCC, GND, SCL, SDA, XDA, XCL, ADO, INT. White X Y Z axis symbols printed on the board. Clean geometry, optimized topology, minimal polygons, sharp edges, realistic scale, product style model, centered object, neutral lighting.no wires, no breadboard, no cables, no hands, no background, no table, no extra components, no duplicate pins, no distortion, no melted shapes, no rounded toy style, no sci-fi parts, no text artifacts
Anonymous1773620920
Realistic 3D model of an MPU6050 GY-521 IMU sensor module. Small blue rectangular PCB with two mounting holes. One row of 8 male header pins along one side. A central black square SMD chip. Several small SMD resistors and capacitors. One small yellow capacitor near the top corner. White silkscreen labels on the PCB: VCC, GND, SCL, SDA, XDA, XCL, ADO, INT. Clean hard surface electronics model, accurate proportions, realistic materials, product style, isolated object, clean topology.no wires, no breadboard, no hands, no background, no distortion, no extra pins, no duplicated components, no sci-fi parts, no melted geometry, no toy style
Anonymous1773620920
Anonymous1773596734
aggiungi sulla suta dei sensori e elimina i due pezzi
Anonymous1772573299
Anonymous1773459887
Acionador de abertura por sensor infravermelho - BT 4000 INTELBRAS
Anonymous1737031324
Ultra detailed 3D render of an LDR light sensor module used for Arduino projects. Blue PCB board with white silkscreen labels. Mounted components include a round photoresistor (LDR), blue adjustable trimmer potentiometer, LM393 comparator chip, SMD resistors, capacitors, and a 3-pin header (VCC, GND, OUT). The board layout is compact and clean like a commercial sensor module. Photorealistic materials: matte PCB surface, metallic solder pads, realistic plastic components. Rendering style: professional product visualization, high resolution, ray-traced lighting, soft shadows. Camera angle: slightly tilted isometric view, showcasing the LDR sensor prominently. Environment: minimal studio background, focus on the electronics module. Highly detailed, accurate electronic component proportions. small Arduino-compatible sensor module photoresistor sensor (LDR) on the edge of PCB 3-pin interface header
Anonymous1773381423
Meter board holder
Anonymous1773404063
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