Tracked robot 3D Models

Find the best Tracked robot 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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Make the wheel on both side bulldozer wheel. both side must have bulldozer wheel

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Anonymous1776370400

Create a compact, functional prototype of a tracked robot with an articulated arm and jackhammer tool for testing purposes.

Scale: small/bench-scale (40–60 cm total length).

Base: lightweight tracked chassis (PLA/PETG), rubber tracks, 2 DC gear motors, simple suspension, space for battery and Arduino.

Platform: mounts for Arduino and motor driver, basic cable routing.

Arm: 3–4 DOF using high-torque servos (MG996R), reinforced joints, simplified structure.

Tool: small jackhammer-style end effector at fixed 120° angle, short rigid extension (20–40 cm), optional vibration motor instead of real impact system.

Control: joystick or Bluetooth remote (2-axis control).

Materials: mostly 3D printed parts with metal screws (M3/M4).

Objective: simulate safe cleaning operation, reduce operator exposure, and test movement/angles.

Metrics: ease of control, stability, reach, and task efficiency.

Anonymous1776368147

$Create a functional 3D-printable tracked robot with an articulated arm and extended jackhammer tool. Optimize for FDM (PLA/PETG), max 220x220mm parts, ≤45° overhangs, 0.2–0.4mm tolerances, metric screws (M3–M5). Base: dual tank tracks, drive sprocket (6mm shaft), idler with tensioner, rollers, space for motors, battery, electronics. Platform: Arduino mounts, cable channels. Arm: 4 DOF, reinforced, MG996R mounts, 608 bearings. Tool: jackhammer with modular extension (up to 5m scaled), interlocking tubes, internal rod/cable, 120° angle, reinforced wrist. Control: manual levers (backhoe style). Objective: eliminate accident risk, physical overload, and heat exposure; enable efficient channel cleaning without damaging refractory structure, ensuring full removal at multiple angles. Metrics: increase productivity (reduce cleaning time), reduce exposure time, ensure replicability across vertical regenerative parallel-flow furnaces.$

Anonymous1776368147

Create a functional 3D-printable tracked robot with an articulated arm and extended jackhammer tool. Optimize for FDM (PLA/PETG), max 220x220mm parts, ≤45° overhangs, 0.2–0.4mm tolerances, metric screws (M3–M5).

Base: dual tank tracks, drive sprocket (6mm shaft), idler with tensioner, 3–5 rollers, space for motors, battery, electronics.

Platform: Arduino + driver mounts, cable channels.

Arm: 4 DOF, reinforced, MG996R mounts, 608 bearings, internal wiring.

End effector: jackhammer with modular segmented extension reaching 5m total length (scaled model), assembled via interlocking tube sections, internal rod/cable for stability, fixed 120° angle, chisel tip, reinforced wrist.

Control: manual lever system inspired by backhoe controls, using mechanical linkages or potentiometers for human operation.

Assembly: modular, screw फिट, alignment pins.

Print: 2–3mm walls, 20–60% infill.

Output: separate STL files.

Anonymous1776368147

Create a functional 3D-printable tracked robot with an articulated arm and a jackhammer tool. Optimize for FDM (PLA/PETG), max 220x220mm parts, ≤45° overhangs, 0.2–0.4mm tolerances, metric screws (M3–M5).

Base: dual tank tracks with drive sprocket (6mm shaft), idler with tensioner, 3–5 rollers, internal space for 2 DC motors, battery and electronics, removable top.

Platform: mounts for Arduino and motor driver, cable channels.

Arm: 4 DOF, MG996R servo mounts, reinforced joints, internal wiring paths, bearings (608) on load points.

End effector: replace gripper with compact jackhammer at fixed 120° angle, cylindrical body, chisel tip, reinforced wrist, optional vibration motor mount.

Assembly: modular parts, screw फिट, alignment pins, no glue.

Print: 2–3mm walls, 20–40% infill (60%+ for joints).

Output: separate STL files.

Anonymous1776368147

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