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Anonymous1772277281
02-28 11:30
Model Name
skid steer chassis 3d model
Tags
machine
rendering
realistic
Prompt
Create a detailed industrial 3D CAD model of a 4-wheel skid-steer robot chassis only. Dimensions: 1400 mm length, 1100 mm width. The chassis is constructed from 40x40 mm square hollow steel tubing forming a rectangular base frame. Include two rigid side subframes (left and right) connected through a central transverse rocker pivot shaft located at the geometric center of the chassis. The pivot shaft is a solid cylindrical steel shaft (approximately 50 mm diameter) supported by two flange bearings mounted to the main frame. Each side subframe supports two wheel mounting plates (front and rear) aligned in a straight line. Include mounting brackets for motors at the center of each side frame. Include chain clearance space between front and rear wheel mounting points on each side. Ground clearance: approximately 220 mm. Do NOT include wheels, motors, chains, electronics, covers, or body panels. Show only the structural frame, pivot mechanism, motor mounting plates, and wheel mounting brackets. Render as a clean mechanical CAD model with realistic steel material and neutral background. Provide isometric view plus top, front, and side orthographic views. 🔷 Shorter Version (If Tool Has Character Limits) 4-wheel skid steer robot steel chassis only, 1400mm x 1100mm rectangular frame, 40x40mm square tube construction, central transverse rocker pivot shaft (50mm diameter) with flange bearings, two independent side subframes, motor mounting plates at center of each side, wheel mounting brackets front and rear, no wheels, no motors, no electronics, clean industrial CAD render. If you want, I can also give you: A dimensioned engineering-style blueprint prompt A weld-ready fabrication drawing prompt Or a heavy-duty industrial version (rated 500 kg) version Tell me which direction you're taking this build 👀🔧 make a different prompt which will have ladder chassis kind of thing where there will be holes for the motor placement and mounts... battery mounts and also driver mounts... take battery and mototr dimensions from the previous chats... take your time and give me a good prompt, the pevious onne didn't make much sense in a design aspect after creating.... take farmrobo chassis and XAG R-100 chassis for reference and make it within the limits of what we've discussed Alright 👌 this time we’ll do it properly — engineering-logical, fabrication-ready, and consistent with everything we’ve discussed. We’ll base this on: 2-motor chain drive 48V system ~2 kW per motor 500 mm wheels 1400 mm × 1100 mm footprint Central rocker pivot Ladder chassis style (like Farmrobo / XAG R100 architecture) Proper motor mounts, battery tray, and driver/controller plate This prompt is structured so the 3D generator understands load paths and structure, not just shapes. 🔷 PROFESSIONAL LADDER CHASSIS PROMPT (USE THIS) Copy this exactly: Prompt: Create a detailed mechanical 3D CAD model of a heavy-duty ladder-type chassis for a 4-wheel skid-steer agricultural robot. Overall footprint: 1400 mm length, 1100 mm width. Chassis style: industrial ladder frame similar to Farmrobo and XAG R100 structural architecture. The chassis consists of: Two longitudinal main rails (100 mm tall, 50 mm wide rectangular hollow steel section, 4 mm wall thickness) Four cross members (75x50 mm rectangular hollow steel section) Fully welded rectangular ladder structure Include a central transverse rocker pivot system: 50 mm diameter solid steel pivot shaft Mounted at geometric center (700 mm from front, 550 mm from side) Supported by two heavy-duty flange bearings welded to cross-member plates Side subframes: Left and right rocker arms pivoting about the central shaft Each rocker supports front and rear wheel mounting plates Wheelbase on each side: approx 1000 mm Motor mounting system: Two motor mounting plates (one per side) centered between front and rear wheels Plate size approx 300 mm x 250 mm x 8 mm thick Include slotted bolt holes for chain tension adjustment Motor assumed cylindrical BLDC, approx 200 mm diameter, 250 mm length Mounting bolt pattern holes included Chain drive layout: Leave 120 mm vertical clearance for sprocket alignment Provide chain clearance gap between front and rear wheel mounts Battery tray: Central low-mounted tray between longitudinal rails Size approx 500 mm x 400 mm Designed to hold 48V LiFePO4 battery pack (~450 mm x 350 mm x 200 mm) Include mounting holes and side clamping brackets Driver/controller mounting plate: Flat steel electronics plate above battery tray Size approx 400 mm x 300 mm Include pre-drilled mounting holes Ground clearance: 220 mm Frame material: structural steel Do NOT include wheels, motors, chains, electronics, covers, or body panels. Show only structural components, pivot mechanism, mounting brackets, and mechanical interfaces. Style: engineering-grade CAD model, realistic metal materials, clean fabrication-ready design, isometric view plus top, front, and side orthographic views.
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