Remote
Work location
Mechanical Drawing Needed Ended
About the job
We are seeking a qualified CAD designer to produce both 3D and 2D fabrication-ready mechanical drawings of a custom-engineered vertical cylindrical riser structure. The drawing must clearly show bracing layout, grid panel dimensions, and all structural features.
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manufacturing.
---
π Specifications:
Shape: Vertical cylindrical tube
Height: 120 inches (10 feet)
Outer Diameter: 32.5 inches
Wall Thickness: ~0.25 inches (or specify if adjustable)
---
𧱠Panel Bracing Layout (Critical):
7 Vertical Braces spaced equally around the circumference (~16.1" apart)
7 Horizontal Rings spaced equally along the height (~17.1" apart)
Total Panels: 49 (7 columns Γ 7 rows)
Approximate Panel Size: ~16.1" wide Γ ~17.1" high (~251 inΒ² per panel)
Panel shape: Rectangular
All braces must be clearly visible and labeled in both views
---
π Required Drawing Views:
β 2D Technical Drawing:
Front elevation (flat, fabrication-style)
All dimensions shown (panel width/height, total height, diameter)
Clear bracing layout
Callouts for panel size and position
Format: DXF, DWG, PDF
β 3D CAD Model:
Full isometric or perspective view of cylindrical structure
All braces and intersections shown in 3D
Format: STL or STEP (preferred)
Optional exploded view showing panel grid spacing and brace... read more
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manufacturing.
---
π Specifications:
Shape: Vertical cylindrical tube
Height: 120 inches (10 feet)
Outer Diameter: 32.5 inches
Wall Thickness: ~0.25 inches (or specify if adjustable)
---
𧱠Panel Bracing Layout (Critical):
7 Vertical Braces spaced equally around the circumference (~16.1" apart)
7 Horizontal Rings spaced equally along the height (~17.1" apart)
Total Panels: 49 (7 columns Γ 7 rows)
Approximate Panel Size: ~16.1" wide Γ ~17.1" high (~251 inΒ² per panel)
Panel shape: Rectangular
All braces must be clearly visible and labeled in both views
---
π Required Drawing Views:
β 2D Technical Drawing:
Front elevation (flat, fabrication-style)
All dimensions shown (panel width/height, total height, diameter)
Clear bracing layout
Callouts for panel size and position
Format: DXF, DWG, PDF
β 3D CAD Model:
Full isometric or perspective view of cylindrical structure
All braces and intersections shown in 3D
Format: STL or STEP (preferred)
Optional exploded view showing panel grid spacing and brace... read more
We are seeking a qualified CAD designer to produce both 3D and 2D fabrication-ready mechanical drawings of a custom-engineered vertical cylindrical riser structure. The drawing must clearly show bracing layout, grid panel dimensions, and all structural features.
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manufacturing.
---
π Specifications:
Shape: Vertical cylindrical tube
Height: 120 inches (10 feet)
Outer Diameter: 32.5 inches
Wall Thickness: ~0.25 inches (or specify if adjustable)
---
𧱠Panel Bracing Layout (Critical):
7 Vertical Braces spaced equally around the circumference (~16.1" apart)
7 Horizontal Rings spaced equally along the height (~17.1" apart)
Total Panels: 49 (7 columns Γ 7 rows)
Approximate Panel Size: ~16.1" wide Γ ~17.1" high (~251 inΒ² per panel)
Panel shape: Rectangular
All braces must be clearly visible and labeled in both views
---
π Required Drawing Views:
β 2D Technical Drawing:
Front elevation (flat, fabrication-style)
All dimensions shown (panel width/height, total height, diameter)
Clear bracing layout
Callouts for panel size and position
Format: DXF, DWG, PDF
β 3D CAD Model:
Full isometric or perspective view of cylindrical structure
All braces and intersections shown in 3D
Format: STL or STEP (preferred)
Optional exploded view showing panel grid spacing and brace attachment points
---
π¦ Deliverables:
2D drawing: DXF + PDF
3D model: STL, STEP, or equivalent
Source files: AutoCAD (.dwg), Fusion 360 (.f3d), SolidWorks (.sldprt), or similar
But would prefer 3d drawings in format that a Microsoft solution could open and view if possible read less
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manufacturing.
---
π Specifications:
Shape: Vertical cylindrical tube
Height: 120 inches (10 feet)
Outer Diameter: 32.5 inches
Wall Thickness: ~0.25 inches (or specify if adjustable)
---
𧱠Panel Bracing Layout (Critical):
7 Vertical Braces spaced equally around the circumference (~16.1" apart)
7 Horizontal Rings spaced equally along the height (~17.1" apart)
Total Panels: 49 (7 columns Γ 7 rows)
Approximate Panel Size: ~16.1" wide Γ ~17.1" high (~251 inΒ² per panel)
Panel shape: Rectangular
All braces must be clearly visible and labeled in both views
---
π Required Drawing Views:
β 2D Technical Drawing:
Front elevation (flat, fabrication-style)
All dimensions shown (panel width/height, total height, diameter)
Clear bracing layout
Callouts for panel size and position
Format: DXF, DWG, PDF
β 3D CAD Model:
Full isometric or perspective view of cylindrical structure
All braces and intersections shown in 3D
Format: STL or STEP (preferred)
Optional exploded view showing panel grid spacing and brace attachment points
---
π¦ Deliverables:
2D drawing: DXF + PDF
3D model: STL, STEP, or equivalent
Source files: AutoCAD (.dwg), Fusion 360 (.f3d), SolidWorks (.sldprt), or similar
But would prefer 3d drawings in format that a Microsoft solution could open and view if possible read less
We are seeking a qualified CAD designer to produce both 3D and 2D fabrication-ready mechanical drawings of a custom-engineered vertical cylindrical riser structure. The drawing must clearly show bracing layout, grid panel dimensions, and all structural features.
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manuf... read more
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manuf... read more
We are seeking a qualified CAD designer to produce both 3D and 2D fabrication-ready mechanical drawings of a custom-engineered vertical cylindrical riser structure. The drawing must clearly show bracing layout, grid panel dimensions, and all structural features.
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manufacturing.
---
π Specifications:
Shape: Vertical cylindrical tube
Height: 120 inches (10 feet)
Outer Diameter: 32.5 inches
Wall Thickness: ~0.25 inches (or specify if adjustable)
---
𧱠Panel Bracing Layout (Critical):
7 Vertical Braces spaced equally around the circumference (~16.1" apart)
7 Horizontal Rings spaced equally along the height (~17.1" apart)
Total Panels: 49 (7 columns Γ 7 rows)
Approximate Panel Size: ~16.1" wide Γ ~17.1" high (~251 inΒ² per panel)
Panel shape: Rectangular
All braces must be clearly visible and labeled in both views
---
π Required Drawing Views:
β 2D Technical Drawing:
Front elevation (flat, fabrication-style)
All dimensions shown (panel width/height, total height, diameter)
Clear bracing layout
Callouts for panel size and position
Format: DXF, DWG, PDF
β 3D CAD Model:
Full isometric or perspective view of cylindrical structure
All braces and intersections shown in 3D
Format: STL or STEP (preferred)
Optional exploded view showing panel grid spacing and brace attachment points
---
π¦ Deliverables:
2D drawing: DXF + PDF
3D model: STL, STEP, or equivalent
Source files: AutoCAD (.dwg), Fusion 360 (.f3d), SolidWorks (.sldprt), or similar
But would prefer 3d drawings in format that a Microsoft solution could open and view if possible read less
This design will be used for a gravity-based vapor-phase prototype, and must be created to precise specifications for real-world manufacturing.
---
π Specifications:
Shape: Vertical cylindrical tube
Height: 120 inches (10 feet)
Outer Diameter: 32.5 inches
Wall Thickness: ~0.25 inches (or specify if adjustable)
---
𧱠Panel Bracing Layout (Critical):
7 Vertical Braces spaced equally around the circumference (~16.1" apart)
7 Horizontal Rings spaced equally along the height (~17.1" apart)
Total Panels: 49 (7 columns Γ 7 rows)
Approximate Panel Size: ~16.1" wide Γ ~17.1" high (~251 inΒ² per panel)
Panel shape: Rectangular
All braces must be clearly visible and labeled in both views
---
π Required Drawing Views:
β 2D Technical Drawing:
Front elevation (flat, fabrication-style)
All dimensions shown (panel width/height, total height, diameter)
Clear bracing layout
Callouts for panel size and position
Format: DXF, DWG, PDF
β 3D CAD Model:
Full isometric or perspective view of cylindrical structure
All braces and intersections shown in 3D
Format: STL or STEP (preferred)
Optional exploded view showing panel grid spacing and brace attachment points
---
π¦ Deliverables:
2D drawing: DXF + PDF
3D model: STL, STEP, or equivalent
Source files: AutoCAD (.dwg), Fusion 360 (.f3d), SolidWorks (.sldprt), or similar
But would prefer 3d drawings in format that a Microsoft solution could open and view if possible read less
Things to know
Intermediate
Skill Level
Open budget
Hourly
Part-time
Job type
Under 1-month
Job duration
Areas of expertise
2D & 3D Mechanical Drawing
2D Drafting
2D Technical Drawings
3D CAD Assemblies & Parts
+1 more
Job categories
Mechanical Drawing Services
About the client
Payment ready
Thailand (08:52 pm)
Posted
Active
Job activity
62 Applicants
2 interviews in progress
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