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Fingertip 3D Models

Find the best Fingertip 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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Anonymous1773320550

Chrys Horace

1. Second Metacarpal: This long bone sits inside the palm. It has a thick, square base at the wrist and a long, straight shaft. The top is a large, rounded head that forms your main knuckle.
2. Proximal Phalanx: This is the first bone of the finger. It is long with a flat bottom and a curved top. The base has a deep cup shape, while the head ends in two small rounded bumps.
3. Middle Phalanx: A smaller version of the proximal bone, this acts as the middle link. It is shorter and thinner, with a double-grooved base and a pulley-shaped head at the top.
4. Distal Phalanx: This is the tiny bone at the very tip. It is shaped like a small spade or arrowhead. It tapers from a wide base to a flat, rough point that supports your fingernail and the fingertip pad keep the joints out of there and leave space betwwen each bone and lay it all out make it like a normal bone strucer just without the joints and replace the joints with a bit of space

Anonymous1770947003

Anonymous1773156258

Anonymous1772357958

Anonymous1773042781

Anonymous1772841646

a hand, cartoon style, with gloves, palm facing up, wrist going downwards

Anonymous1772628893

Create a parametric 3D model of a full-hand smart glove for tremor suppression.

Specifications:

Base: ergonomic full-hand glove conforming to human hand anatomy (male hand average dimensions).

Material: flexible elastomeric fabric (2–3 mm thickness).

Dorsal side only (palm side smooth and plain).

Five embedded sensor strips along dorsal fingers (length ~60–70 mm each).

Fingertip sensor pads (8 mm x 10 mm rectangular modules).

Central microcontroller housing on back of palm (40 mm x 35 mm x 8 mm).

Wrist module enclosure (50 mm x 40 mm x 12 mm).

Integrated shallow cable routing channels (2 mm depth) running along finger segments.

Rounded edges, medical-grade product design.

Clean assembly suitable for 3D printing + flexible electronics integration.

Style: functional prototype, realistic proportions, not stylized.

Anonymous1771310895

“Create a realistic 3D model of a smart wearable gesture‑recognition glove for assistive communication. The glove should have embedded finger sensors to detect hand gestures and a compact wrist module that contains the microcontroller, battery, and speaker for audio output. The design should be lightweight, ergonomic, and suitable for daily use. Use a clean healthcare assistive device style with smooth rounded edges and neutral colors like white, grey, and soft blue. The model should look like a finished manufacturable product with no external camera modules or bulky attachments.”

Anonymous1772543727

Diseña un dedal o thimble que tenga uña, es solo para la punta de los dedos de la mano

Anonymous1770530009

Design a realistic ergonomic fingertip prosthetic sleeve (thimble style) for a person without fingernails.
The design must be a soft flexible fingertip cap that fits over the distal phalanx.
Internal cavity slightly tapered (0.5–1 degree) for a snug anatomical fit.
Internal diameter approximately 14–18 mm (neutral adult size).
Wall thickness uniform 1.5–2 mm.
Bottom edge rounded and smooth for comfort.
Exterior surface smooth and natural fingertip shape.
On the top surface include a flat mounting platform (approx. 10–12 mm long) with a shallow rectangular slot (0.8–1 mm depth) for inserting a separate rigid nail piece.
The slot should allow friction-fit assembly.
No decorative elements.
Clean watertight mesh.
Optimized for TPU 95A 3D printing.
Medical-style minimal design.

Anonymous1770530009

Anonymous1771732451

i love you hand sign

Anonymous1772385614

Create a realistic 3D meCreate a high-detail mechanical 3D CAD model of a servo-driven robotic hand designed for FPGA-based hardware control using inverse kinematics.

Overall Structure:
- Total height (including forearm): 260 mm
- Hand length (wrist to fingertip): 160 mm
- Palm width: 85 mm
- Forearm cylindrical body height: 120 mm
- Forearm diameter: 70 mm

Design Style:
- Industrial robotic engineering design
- Matte black or dark grey finish
- Visible mechanical structure
- Realistic joint articulation
- Functional engineering look (not toy style)

Finger Design:
- 5 articulated fingers (Thumb + 4 fingers)
- Each finger consists of 3 phalange segments
- Finger segment thickness: 12 mm
- Finger width: 14 mm
- Joint pin diameter: 3 mm
- Smooth curved fingertip ends
- Slightly tapered finger geometry

Thumb:
- Side-mounted at 45-degree natural angle
- 3-segment articulated design
- Independent servo-driven motion

Actuation System:
- Tendon-driven mechanism using nylon string routing
- Servo motors placed ve

Anonymous1759374707

Create a detailed 3D mechanical render of a single robotic gripper finger.

IMPORTANT:
Generate ONLY one finger.
Do NOT create a full U shape.
Do NOT mirror the part.
Do NOT include a second finger.
This is a single half-U curved arm only.

GEOMETRY:
The part must look like half of a U shape.
Open curved structure.
Arc angle: approximately 70–80 degrees.
Inner arc radius: about 35 mm.
Distance from pivot center to fingertip: about 50 mm.
The curve must remain open and not close into a full U.

BASE / PIVOT:
Include one circular pivot hole at the base.
Pivot hole diameter: 5 mm.
Add a reinforced circular boss around the pivot hole.
Boss diameter: about 16 mm.
Base thickness thicker than the rest of the finger.

BODY:
Finger width: about 15–18 mm.
Body thickness: about 8 mm.
Outer surface flat and clean.
Inner gripping surface slightly textured.
Fingertip slightly rounded.
No hook shape.
No second curved arm.

STRUCTURE:
Add visible reinforcement ribs near the pivot.
Lightweight mechanical design.
Clearly engin

Anonymous1772117621

Design a single mechanical robotic gripper finger.
This is ONLY one side of a two-finger gripper.
Do NOT generate a full U shape.
Do NOT mirror the part.
Do NOT include a second finger.

GENERAL GEOMETRY:
The finger must be a single curved arm.
It must represent exactly half of a U shape.
It must not form a closed curve.
It must be an open arc segment only.

DIMENSIONS:
Total arc angle: 75 degrees only.
Arc radius (measured from pivot center to inner curve centerline): 35 mm.
Distance from pivot center to fingertip end: 50 mm.
Maximum width of finger body: 18 mm.
Thickness of finger body: 8 mm uniform.
Base thickness at pivot area: 12 mm reinforced section.

PIVOT AREA:
Include one circular pivot hole.
Pivot hole diameter: 5 mm.
Pivot hole must be centered inside a thick circular boss.
Boss diameter: 16 mm.
Boss thickness: 12 mm.
Pivot hole tolerance: +0.2 mm for smooth rotation.

STRUCTURAL STRENGTH:
Add internal ribbing along the outer curve.
Add 2 triangular reinforcement ribs near the pivot base.
Inner st

Anonymous1772117621

Anonymous1771922548