Smart glove 3D Models

Find the best Smart glove 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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A smart electronic glove is a wearable device designed to monitor and stabilize hand movements. The system, called “Nabd Thabet” (Stable Pulse), integrates sensors, a microcontroller, and actuators into one compact design to help reduce involuntary tremors.

It works in three stages: first, motion sensors detect hand and finger movements. Then, a microcontroller analyzes the data. Finally, small actuators produce corrective vibrations or movements to reduce unwanted shaking. This process relies on continuous feedback, allowing real-time adjustment.

The glove includes motion sensors, a processing unit, actuators, and a power source. Sensors are strategically placed on the fingers and palm for accurate tracking while maintaining comfort.

Overall, the glove improves hand stability by detecting and actively correcting unwanted motion.

Anonymous1776156366

Anonymous1772558484

Anonymous1770627736

sleek translucent smart gloves with elegant copper circuits dancing across the knuckles, glowing sensor dots at fingertips, interconnected by delicate golden wires forming intricate patterns

Anonymous1771130522

Simple Smart Glove wearable for Deaf Communication

Anonymous1770727201

Professional 3D product render of IoT smart glove with transparent cutaway view showing internal electronics. Black semi-transparent glove material revealing components inside. VISIBLE INTERNAL COMPONENTS: Five orange flex sensors (6mm wide strips) running through each finger from base to fingertip, thin red/copper wires connecting sensors to main board. Back of hand: white plastic housing containing green ESP32 microcontroller PCB with visible circuits, chips, and gold pins, blue MPU6050 accelerometer module attached. Wrist area: rectangular LCD display module with circuit board visible, small circular speaker module with copper coil visible, compact 5V battery pack with green casing, all components connected with visible red and black wiring. Semi-transparent black glove fabric showing internal structure, realistic electronics with PCB traces, resistors, capacitors visible. Dark gradient background, studio lighting with internal component glow, photorealistic technical illustration style, octane render, 8K

Anonymous1770225682

Anonymous1770225297

Create a high-quality 3D visual render of an IoT-based Smart Glove for Filipino Sign Language translation, focusing only on the external appearance of the device (no internal electronics shown).

Show both hands wearing smart gloves in a realistic human scale.

Left Hand (Primary Focus):

A rectangular LCD screen mounted on the left wrist, positioned on the top/outer side of the wrist, angled slightly toward the user for easy viewing

The LCD should appear embedded and flush with the glove, modern and minimal in design

A visible speaker grille integrated near the wrist area (side or underside), clearly identifiable but cleanly designed

Smooth cable routing or concealed wiring integrated into the glove fabric (no exposed wires)

Right Hand:

A matching smart glove without an LCD screen

Subtle design elements (stitching lines, seams, or paneling) to suggest embedded sensors

Clean, simple, and symmetrical design relative to the left glove

General Glove Design:

Material: flexible fabric or neoprene-style ma

Anonymous1770209166

"Generate a 3D model render of a pair of smart gloves designed for sign language translation, inspired by the provided reference image. The design should be sleek, modern, and functional, with an integrated system that eliminates the need for a separate wristband.

Key Design Modifications:

· Gloves: Form-fitting black fabric with subtle tech detailing.
· Integrated Components (on the gloves, not a separate wristband):
· Small, flat speaker embedded on the upper side of the wrist.
· A discreet microphone placed near the base of the thumb.
· A small status LED on the back of the hand.
· Sensors: Visible flex sensors running along the back of each finger (from knuckle to fingertip).
· Processor Unit: A small, central processing module/box on the back of the hand housing the main electronics (Raspberry Pi/Arduino).

Context & Style:

· The gloves are part of an assistive tech device for the deaf and hard of hearing.
· Visual style: Photorealistic, studio-lit, professional product s

Anonymous1769001103

A full-size realistic 3D render of a person wearing a futuristic smart glove prototype on one hand.
The glove is sleek, made of black and gray flexible fabric with smooth contours, fitting naturally over the hand and wrist.
The back of the glove features neatly integrated electronic components — a small OLED display on the wrist labeled “NeuroGlove”, several sensor modules (MPU6050, MAX30102, BMP180, APDS9960), and EMG pads embedded near the wrist and along the forearm.
Thin flex sensors run gracefully along each finger, connected with cleanly routed orange cables.
The electronics are enclosed in a protective matte casing with soft lighting highlighting each module.
The person is standing in a neutral pose, with one hand slightly raised to showcase the glove.
Background: plain light gray studio setting, professional lighting, high detail, realistic proportions, visible full arm and upper torso.
Emphasize high-tech wearable design, comfort, and realism.

🧠 Optional Add-ons (if the generator allows advanced tag

Anonymous1759840640

本模型为一款专为健康监测设计的智能手套3D模型。建模重点在于精确整合内部传感器模块与舒适可穿戴结构。该智能穿戴产品无指套，本体只有手围加手腕，手部为人类正常尺寸，无需添加手部模型，只需建产品外形。

· 核心建模要点：
· 手心区域：此部位需要创建一个精确的凹陷结构，用于嵌入PPG传感器模块。请确保该区域曲面平滑，与手指模型自然过渡，以保证传感器与皮肤紧密贴合。
· 手背与手指内侧：在这些与皮肤接触的主要区域，模型表面应设计为平滑的贴合曲面，并为生物电阻抗电极片和血流传感器预留出微小的、标志性的安装区域。
· 手背部主体结构：模型内部需要预留中空腔体，用于容纳主控电路板、IMU运动传感器和电池仓。外观上，手背部分可设计为流线型凸起，以暗示内部电子元件。
· 腕部与魔术贴：腕部采用可调节魔术贴开合设计。请将魔术贴的基底与手套腕部建模为一体，其中手腕两侧做镂空，手背手心下的手腕处连接魔术贴，并确保开合区域结构清晰，方便进行动画绑定和尺寸适配测试。
· 布线通道：在模型内部或边缘，建议设计细微的凹槽或管道结构，用于在视觉上表现连接各传感器的柔性电路（FPC）走线，增强模型的科技感和真实度。

Anonymous1762014880

本模型为一款专为健康监测设计的智能手套3D模型。建模重点在于精确整合内部传感器模块与舒适可穿戴结构。该智能穿戴产品无指套，本体只有手围加手腕，手部为人类正常尺寸，五根手指。

· 核心建模要点：
· 手心区域：此部位需要创建一个精确的凹陷结构，用于嵌入PPG传感器模块。请确保该区域曲面平滑，与手指模型自然过渡，以保证传感器与皮肤紧密贴合。
· 手背与手指内侧：在这些与皮肤接触的主要区域，模型表面应设计为平滑的贴合曲面，并为生物电阻抗电极片和血流传感器预留出微小的、标志性的安装区域。
· 手背部主体结构：模型内部需要预留中空腔体，用于容纳主控电路板、IMU运动传感器和电池仓。外观上，手背部分可设计为流线型凸起，以暗示内部电子元件。
· 腕部与魔术贴：腕部采用可调节魔术贴开合设计。请将魔术贴的基底与手套腕部建模为一体，其中手腕两侧做镂空，手背手心下的手腕处连接魔术贴，并确保开合区域结构清晰，方便进行动画绑定和尺寸适配测试。
· 布线通道：在模型内部或边缘，建议设计细微的凹槽或管道结构，用于在视觉上表现连接各传感器的柔性电路（FPC）走线，增强模型的科技感和真实度。

Anonymous1762014880

1. Descrição da Integração
A proposta apresenta um sistema integrado no qual a luva inteligente monitora, em tempo real, a
pressão e a proximidade das mãos do operador durante a movimentação de peças pela ponte
rolante automatizada.
Ao detectar risco de esmagamento ou corte, a luva:
- Emite alertas táteis e sonoros ao colaborador;
- Envia sinal wireless ao sistema de controle da ponte rolante;
- O sistema, ao receber o sinal, executa parada automática ou desaceleração imediata, evitando o
acidente.

Anonymous1758644140

Design a high-tech wearable smart glove specifically created for sign language translation.

The glove should be ergonomic and lightweight, shaped like a standard right hand in a neutral open-palm position.

The main material should look like soft stretchable neoprene or smart fabric, colored matte black or dark grey with smooth contours.

Integrate flex sensors running along each finger joint (thumb, index, middle, ring, little finger).

On the back of the hand, embed a compact microcontroller module with a smooth plastic casing and glowing power indicator.

Show thin, flexible circuit strips or conductive textile lines connecting the sensors to the module — neatly arranged to follow the glove’s shape.

Place small EMG sensor pads around the wrist and lower palm area, appearing as metallic or silver circular contacts.

Include a soft adjustable wrist strap with a built-in Bluetooth module or small antenna, giving it a smart wearable aesthetic.

Add tiny LED indicators (blue/green) near the wrist area to show signal activity.

Emphasize realistic textures: fabric stretch, smooth plastic, metallic contacts, and fine stitching details.

Clean, high-resolution, PBR rendering with soft lighting and white background.

The glove should look futuristic but practical, suitable for daily use by a person with hearing or speech impairment.”

Anonymous1759840640

Anonymous1760065134

Anonymous1756234763

Build a smart glove that can capture sign language gestures and convert them into spoken voice using machine learning.

Anonymous1752601282