Robot chassis 3D Models

Find the best Robot chassis 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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Simple rectangular robot chassis frame with four or six wheels, compact industrial mobile platform, clean basic 3D model, minimal mechanical details, easy to understand design.

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Anonymous1770195916

Correct the robot chassis to match a differential-drive design.

Structural Corrections:
- Remove the extra wheels
- Keep ONLY two main drive wheels
- One wheel on the left side
- One wheel on the right side
- Wheels should be aligned horizontally and symmetrical
- Each wheel is connected to a yellow DC gear motor

Front Support:
- Add ONE small front caster wheel
- Caster should be centered at the front underside
- Metal bracket with a small white nylon wheel

Constraints:
- No rear caster
- No extra wheels
- Maintain mechanical realism
- Preserve existing chassis shape and proportions
- Do not add new components

Final Structure:
- 2 side wheels (left + right)
- 1 front caster wheel
- Differential-drive robot base

Anonymous1769377690

Create a high-accuracy 3D model of a small differential-drive robot chassis using the provided reference images.

Object Description:
- Circular robot base made of transparent acrylic (clear plastic)
- Two large side wheels with black rubber tires and yellow rims
- Two yellow DC gear motors mounted horizontally, directly connected to the wheels
- One small front caster wheel (metal bracket with white nylon wheel)
- Multiple brass standoffs connecting two acrylic plates (top and bottom)
- Slots and mounting holes on the top acrylic plate
- Central circular cutout on the top plate
- Visible screws, nuts, and motor brackets

Modeling Requirements:
- Maintain real-world proportions and symmetry
- Separate major components (top plate, bottom plate, wheels, motors, caster)
- Clean topology suitable for mechanical design
- No textures required, use basic materials (transparent acrylic, rubber, metal, plastic)
- Smooth edges with realistic thickness for acrylic plates

Output Requirements:
- Generate a watertight 3D

Anonymous1769377690

1. Estrutura e Articulação:Abertura Traseira: A tampa superior (220 x 147mm) deve abrir pela traseira (estilo "capô" invertido).Dobradiças Metálicas: Utilizarei mini dobradiças de aço ou ferro para garantir durabilidade. Necessito que a chapa traseira e a tampa já venham com a furação para os parafusos dessas dobradiças.Sistema de Trava: Na parte frontal da tampa, necessito de uma aba ou furo para um fechamento parafusado, garantindo que a tampa permaneça fixa durante o movimento do robô.2. Recortes para Componentes (Laser):Tampa: Recorte central para Display LCD 16x2.Painel Frontal: Furos para Sensor Ultrassônico (olhos), furo circular para Sensor PIR (presença) e uma pequena grade de furos para a saída de som do Buzzer.Base: Furação para motores DC e fixação do ESP32.3. Observações:Levarei o robô e as dobradiças metálicas para que a medição dos furos seja exata.O acabamento deve ser em corte a laser para evitar arestas cortantes na fiação

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