Smart glasses 3D Models

Find the best Smart glasses 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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Design a realistic 3D-rendered concept of smart glasses intended for housing embedded electronic components.

Overall Design:

Style: Modern, matte black finish, minimalist and ergonomic.

Shape: Balanced rectangular lenses with slightly rounded corners.

Lenses: 52 mm wide × 26 mm high each.

Bridge width: 18 mm.

Total frame width: 145 mm.

Both temples identical externally, each 145 mm long × 22 mm high × 19 mm thick.

Wall thickness: 2 mm internal cavity, hollow for components.

Both temples have removable top lids (0.2 mm clearance) for assembly and maintenance.

Material and Finish:

Smooth matte black polycarbonate shell.

Minimal seams, no visible screws or markings.

Subtle curvature for a comfortable fit behind the ears.

Bridge (center between lenses):

Contains a rectangular micro speaker (15 × 11 × 3 mm) inside the bridge.

On the front of the bridge: a 3×3 grid of round speaker holes, each hole Ø1.2 mm.

Speaker grill holes only on the front side, not the back.

Left Temple (Power and Charging):

Contains the following internal components:

Li-Po battery: 3.7 V, 500 mAh, 35 × 20 × 5 mm, front half of temple.

USB-C charger board (TP4056-C): 25 × 19 × 2 mm, placed near the rear of temple.

USB-C port cutout: 9.2 × 3.6 mm rectangle, located on the top surface near hinge area.

Fuel gauge (MAX17048 breakout): 12 × 12 × 2 mm, beside charger board.

Load switch (TPS22910A breakout): 10 × 8 × 2 mm, between charger OUT+ and system VIN.

Power slide switch: 8.5 × 3 × 3 mm, on the outer side near the hinge (small recess).

MEMS microphone (INMP441): 12 × 9 × 3.5 mm, at the front tip, port facing outward.

Include a small round mic hole Ø1.5 mm at the front tip of the temple.

Right Temple (Main Electronics and Display):

Contains the following internal components:

ESP32 Dev Board (ESP32-WROOM-32, USB-C): 51 × 26 × 9 mm (mounted diagonally to fit cross-section).

Audio amplifier (MAX98357A): 15 × 10 × 3 mm, near ESP32 module.

Transparent OLED driver board (Waveshare 1.51″): 60 × 22 × 6 mm, mid-section of temple.

OLED screen itself (38 × 30 × 2 mm active area 30 × 15 mm) — attached inside the right lens frame, angled 10–15° inward toward eye.

Ribbon cable passes from the driver board to screen through a 1.5 mm wide internal channel.

MEMS microphone (INMP441) at the front tip, facing outward, with a mic hole Ø1.5 mm.

Two tactile buttons (6 × 6 × 4.5 mm) aligned along the lower outer edge, used for user input (Select / Regenerate Reply).

Internal Wiring Channels:

Hidden circular tunnels (~2 mm diameter) run through both temples and across the bridge for routing wires and I²C/SPI lines.

Wiring from battery (left) to ESP32 (right) crosses under the bridge through a 2 mm internal passage.

Design Rules:

Both temples must appear identical externally for symmetry.

Include a small TPU lid (removable) along the top surface of each temple, flush-mounted.

0.2 mm assembly clearance around lids and removable parts.

No overhangs greater than 60°, suitable for 3D printing.

No visible markings or logos.

Scene / Rendering Setup:

Use neutral lighting on a light gray background.

Render three views:

Left-side view — shows USB-C top port and mic hole.

Right-side view — shows mic hole and two buttons.

Front view — shows the bridge speaker grille.

Optional exploded view: show parts (ESP32, battery, amp, OLED, etc.) hovering slightly above open cavities.

Objective:

The final render should look like a production-ready prototype for an AI-powered smart glasses system.

All dimensions must be realistic and consistent with standard 3D modeling precision.

Proportions must match exactly for real-world printability.

Anonymous1760509513

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Anonymous1760075348

**Model:** A detailed, realistic smart glasses frame.
**Frame Material:** Metallic gray finish on the front frame and main temples. The metal has a subtle, clean **brushed steel** or **matte aluminum** texture.
**Temple (Gọng) Detail:** The tips of the temples (ear hooks) and the inner lining of the hinge feature a **matte black** plastic/rubber material with a **thin stripe of vivid red** accent along the edge.
**Lenses:** Clear, **transparent glass** with a slight reflection, typical of optical lenses.
**Smart Module (Left Side):** This is the key component. The module casing is a mix of **metallic gray** and **matte black** plastic. The internal part (visible through a cutout) must feature a complex **electronic circuit board** texture: the base is **matte black/dark gray**, and the circuit traces (đường mạch) are **vivid, glowing red**. This red circuit pattern should be the most dominant visual detail on the side module.
**Hinge (Right Side):** The right temple should show a smaller, recessed version of the circuit detail in the hinge area—a black background with **vivid red** circuit traces.

**Style:** Photorealistic, high detail, ready for product presentation.

Anonymous1760070288

Anonymous1759930799

"Create a highly detailed 3D model of a modern smart glasses similar to Meta, designed for animation and modification in Blender. Include all sensors and components as separate objects. The glasses should have:

A sleek, lightweight frame with slightly curved rectangular lenses.

Front-facing camera module on the center of the frame.

Side sensors along the arms for eye tracking, motion detection, and ambient light.

Buttons and touch-sensitive surfaces on the sides of the arms.

Miniature microphone and speaker holes.

Adjustable nose pads and hinges with realistic joints.

Transparent lenses showing inner electronic layers slightly.

Separate objects for frame, lenses, cameras, sensors, buttons, hinges, and all small components.
Output should be suitable for Blender with correct scaling and topology for animation and detailed modification. Realistic but slightly stylized, clean, and futuristic."

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