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Neonatal 3D Models

Find the best Neonatal 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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Anonymous1773118986
A professional 3D exploded view render of the 'NeoGuard' neonatal medical device. The model features a vertical stack of floating components with a focus on a slim, non-bulky profile. Top Layer: A thin, flat, and soft white fleece fabric sheet, showing realistic textile drape and a small rectangular aperture for a display window. Component Layer: A central ESP32 microcontroller board connected via thin silver wires to a purple MAX30102 pulse oximeter module and a silver-tipped DS18B20 temperature probe. Thermal Layer: An ultra-thin, translucent orange Flexible Polyimide Heating Film with a fine copper grid pattern, perforated with tiny air holes for breathability. Bottom Layer: A thin, smooth, and soft Organic Cotton Fabric layer, designed to be non-invasive and gentle against skin, with minimal depth and a soft matte texture. Visual Style: Photorealistic PBR textures, 8k resolution, studio clinical lighting, plain white background. Include clean black leader lines with labels: 'Soft
Anonymous1763629309
A professional 3D exploded view render of the 'NeoGuard' neonatal medical device. The model features a vertical stack of floating components with a focus on a slim, non-bulky profile. Top Layer: A thin, flat, and soft white fleece fabric sheet, showing realistic textile drape and a small rectangular aperture for a display window. Component Layer: A central ESP32 microcontroller board connected via thin silver wires to a purple MAX30102 pulse oximeter module and a silver-tipped DS18B20 temperature probe. Thermal Layer: An ultra-thin, translucent orange Flexible Polyimide Heating Film with a fine copper grid pattern, perforated with tiny air holes for breathability. Bottom Layer: A thin, smooth, and soft Organic Cotton Fabric layer, designed to be non-invasive and gentle against skin, with minimal depth and a soft matte texture. Visual Style: Photorealistic PBR textures, 8k resolution, studio clinical lighting, plain white background. Include clean black leader lines with labels: 'Sof
Anonymous1763629309
Anonymous1771006285
A professional 3D exploded view render of a neonatal medical device called 'NeoGuard'. The model is shown as a vertical stack of floating layers. Top Layer: Thick, plush white Fleece fabric with a rectangular aperture for an OLED display. Component Layer: A central ESP32 microcontroller module connected via thin silver ribbon cables to a purple MAX30102 pulse oximeter board and a stainless-steel DS18B20 temperature probe. Thermal Layer: A translucent orange Flexible Polyimide Heating Film showing a fine copper heating grid. Base Layer: A quilted, soft white Organic Cotton Fabric with a diamond-stitch pattern. Labeling: Clean black leader lines with labels in professional sans-serif font: 'Soft Fleece Top Layer', 'ESP32 Microcontroller', 'MAX30102 Pulse Oximeter Sensor', 'DS18B20 Temperature Sensor', 'Flexible Polyimide Heating Film', and 'Organic Cotton Fabric'. Photorealistic, 8k resolution, clinical white background, studio lighting, no spelling mistakes."
Anonymous1763629309
Anonymous1773065036
帮我生成一个婴儿在母亲的子宫里的模样
Anonymous1743591852
Anonymous1772737082
Anonymous1760659738
Anonymous1772142036
Anonymous1771972668
Anonymous1772623303
Baby's breath, A stem of baby's breath
Anonymous1772559656
Anonymous1772530463
Anonymous1772515782
baby care pad
Anonymous1762395969
Anonymous1763427939
Hospital NICU setting with clean lighting. The incubator is placed on a wheeled medical stand. The environment should look professional, sterile, and realistic. Incubator Design: Transparent medical-grade acrylic dome Soft internal white lighting Baby mattress inside Side access ports and sealed cable outlets Realistic hospital equipment design Smooth curved edges and industrial finish Inside the Incubator: A small camera module mounted on the upper inner frame, angled toward the baby area A compact microphone module placed near the mattres Cables from both devices neatly routed along the frame Cables exiting through a sealed rubber outlet on the incubator wall Outside the Incubator: A Raspberry Pi board mounted securely on the side or placed on a small trolley Flat white ribbon cable connecting the camera to the Raspberry Pi USB cable connecting the microphone to the Raspberry Pi Power adapter connected to the Raspberry Pi Small cooling fan on the Raspberry Pi Status LED glowing green
Anonymous1772366691
Enter invite code to get credits!