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Tactile 3D Models

Find the best Tactile 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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Anonymous1757874707
我希望你根据图片生成一个为阿尔兹海默症患者制作的产品,它大概只有手掌大小,能被老人手握,边缘是比较光滑。所有地方都需要倒角,请根据图片细致生成
Anonymous1761986044
Anonymous1760403975
Anonymous1759114103
A partir da imagem anexada, construa um Modelo 3D com representação tátil, no formato de placa, no tamanho 10 x 10 cm, com espessura de 1 cm: seguindo o padrão de placa para leitores cegos (linguagem tátil). No caso, a parte traseira da placa é lisa e reta e, do outro lado, os personagens e seus acessórios ficam destacados em alto relevo (produzindo efeito de relevos e texturas).
Anonymous1759931848
Industrial design concept of a futuristic medical wearable device called “NeuroSense Band”, designed for rehabilitation of amputees. A soft, elastic compression sleeve applied on the residual limb (below-knee or forearm). The surface is made of high-tech breathable fabric with fine micro-ribbed texture and integrated electrodes and haptic actuators, subtly embedded with smooth geometric patterns. On the side, a small detachable control module with a tactile button and LED indicators, connected internally to conductive tracks within the textile. The overall aesthetic is futuristic medical, combining ergonomic softness, precision engineering, and minimalist elegance. The lighting is studio-grade soft light, with neutral white or light gray background. The render should feel like a 3D product visualization or concept sketch, emphasizing comfort, innovation, and neurotechnology. Keywords: medical wearable, industrial design, neuroprosthetics, haptic feedback, AI-powered therapy, microcurr
Anonymous1761193342
Anonymous1758694142
Anonymous1771716715
Anonymous1757080897
保留参考图片中的整体几何形状、比例和轮廓。 不需要微观精细度,重点是外观与实物接近。 模型需生成可编辑的 UV 贴图,方便后期替换和修改材质。 输出结果需干净简洁、文件轻量,可用于游戏引擎或 CAD 软件(支持 .glb / .fbx / .obj)。 中性光照,背景为纯白色。
Anonymous1756726279
uma obra de arte tátil em alto relevo, com texturas elevadas dançantes que saltam da superfície, convidando os dedos a explorar suas formas dinâmicas e expressivas
Anonymous1756146171
Create a 3D printable device housing for a tactile learning book. The base should be a flat rectangle, 10 inches by 10 inches, with a minimum thickness but reinforced so it will not bend. On one side of the base, design an elevated box structure measuring 3 inches wide, 10 inches long, and about 1.5 inches high. The remaining 7 inches of the base width should be flat for placing tactile “pages” or buttons. The top surface of the box (3×10 inches) should be a detachable panel, secured with snap-fit clips or screw holes. On this top panel, starting from the top edge and going down vertically, include: A circular speaker grille with multiple small holes. A round hole for a power ON/OFF button, placed below the speaker. A round hole for a Volume + button, below the power button. A round hole for a Volume – button, below the Volume + button. Inside the box, provide space and mounting points for a speaker, three buttons, and small electronics boards. Ensure smooth edges and a kid-safe de
Anonymous1755193852
Anonymous1754008574
Create a 3D model of a handheld tactile stimulation device with integrated display: OVERALL SPECIFICATIONS: - Total length: 180mm, diameter: 30mm - Cylindrical scientific instrument with 4 distinct sections - Clean, modern medical device aesthetic - White/light gray PLA plastic material appearance SECTION BREAKDOWN (top to bottom): 1. Display section (30mm height): Houses small OLED screen with viewing window 2. Electronics section (40mm height): Contains circuit boards and controls 3. Weight adjustment section (70mm height): Internal sliding mechanism with access slot 4. Probe connection section (40mm height): Threaded connection for interchangeable probes KEY VISUAL FEATURES: - Small rectangular OLED display window (25mm x 15mm) on front face - Three small push buttons below display (5mm diameter each) - Vertical adjustment slot (2mm wide, 40mm long) on side - Bottom threaded connection (M20 thread) for probe attachment - Small wire access port at top (3mm diameter) SURFACE FINIS
Anonymous1703521000
Anonymous1743216747
Anonymous1752591116
Generate a high-detail 3D model of an ergonomic handle with the following specifications: **Core Structure:** 1. **Base Shape**:Asymmetrical organic curve inspired by human palm grip (left-hand dominant) 2. **Primary Material**:Matte-textured polymer with subtle rubberized grip zones 3. **Key Dimensions**:Length=120mm, Max Width=45mm, Tapering to 30mm at ends **Detail Features:** - **Surface Texturing**: - Diamond-pattern micro-grooves (0.2mm depth) on finger contact areas - Smooth recessed palm-rest zone with brand engraving - Ventilation slots (5x2mm) along the spine with beveled edges - **Functional Elements**: - Thumb-operated rotary dial (knurled metal texture) on left facet - Tactile buttons (3x circular domed, 1x oblong) with radial micro-ridges - Reinforced impact-absorption core visible through translucent sections - **Aesthetic Enhancements**: - Parametric wave pattern flowing from grip to end-cap - Anodized aluminum accents at stress points - Dynamic ligh
Anonymous1722823931
Anonymous1750156072
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