Remote
Work location
[ 1 week ]3D Product Designer for Prototype Anyone
About the job
Project Overview:
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the internal layout and external aesthetics.
Key Requirements & Scope of Work:
- Engineering for 3D Printing (Solid Modeling): This project requires precise parametric CAD modeling (e.g., Fusion 360, SolidWorks, CATIA), NOT just a polygon mesh for visual rendering. The model must be structurally sound and optimized for physical prototyping (SLA/FDM 3D printing).
- Internal Hollowing & Mounting: The shell must be hollowed out to accommodate internal wiring harnesses, an edge computing unit, and precise mounting brackets.
- Sensor Integration & FOV Clearance: You must design exact mounting points ensuring clear Fields of View (FOV) for the following components:
- 1x Velodyne Alpha Prime 128-channel LiDAR (Center top)
- 2x Forward-facing cameras
- 4x Side-facing cameras (2 left, 2 right)
- 1x Rear-facing camera
- Part Splitting & Assembly: Because the pod is large (spanning an SUV roof), the final CAD model must be logically split into modular, interlocking pieces suitable for standard large-format 3D printers. The design must include mechanisms for assembly (e.g., holes for thre... read more
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the internal layout and external aesthetics.
Key Requirements & Scope of Work:
- Engineering for 3D Printing (Solid Modeling): This project requires precise parametric CAD modeling (e.g., Fusion 360, SolidWorks, CATIA), NOT just a polygon mesh for visual rendering. The model must be structurally sound and optimized for physical prototyping (SLA/FDM 3D printing).
- Internal Hollowing & Mounting: The shell must be hollowed out to accommodate internal wiring harnesses, an edge computing unit, and precise mounting brackets.
- Sensor Integration & FOV Clearance: You must design exact mounting points ensuring clear Fields of View (FOV) for the following components:
- 1x Velodyne Alpha Prime 128-channel LiDAR (Center top)
- 2x Forward-facing cameras
- 4x Side-facing cameras (2 left, 2 right)
- 1x Rear-facing camera
- Part Splitting & Assembly: Because the pod is large (spanning an SUV roof), the final CAD model must be logically split into modular, interlocking pieces suitable for standard large-format 3D printers. The design must include mechanisms for assembly (e.g., holes for thre... read more
Project Overview:
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the internal layout and external aesthetics.
Key Requirements & Scope of Work:
- Engineering for 3D Printing (Solid Modeling): This project requires precise parametric CAD modeling (e.g., Fusion 360, SolidWorks, CATIA), NOT just a polygon mesh for visual rendering. The model must be structurally sound and optimized for physical prototyping (SLA/FDM 3D printing).
- Internal Hollowing & Mounting: The shell must be hollowed out to accommodate internal wiring harnesses, an edge computing unit, and precise mounting brackets.
- Sensor Integration & FOV Clearance: You must design exact mounting points ensuring clear Fields of View (FOV) for the following components:
- 1x Velodyne Alpha Prime 128-channel LiDAR (Center top)
- 2x Forward-facing cameras
- 4x Side-facing cameras (2 left, 2 right)
- 1x Rear-facing camera
- Part Splitting & Assembly: Because the pod is large (spanning an SUV roof), the final CAD model must be logically split into modular, interlocking pieces suitable for standard large-format 3D printers. The design must include mechanisms for assembly (e.g., holes for threaded heat-set inserts, bolts, or snap-fits).
- Roof Curvature Matching: The base of the pod needs to be shaped to accommodate the general roof curvature of a Hyundai Ioniq 5 and include mounting points for a roof rack/crossbars.
Deliverables:
- Source 3D files
- Universal solid CAD models (.STEP and .IGES)
- Print-ready mesh files (.STL or .3MF) properly oriented for the split parts.
- A brief visual render showing the assembled parts.
Due Date : Jun 7 read less
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the internal layout and external aesthetics.
Key Requirements & Scope of Work:
- Engineering for 3D Printing (Solid Modeling): This project requires precise parametric CAD modeling (e.g., Fusion 360, SolidWorks, CATIA), NOT just a polygon mesh for visual rendering. The model must be structurally sound and optimized for physical prototyping (SLA/FDM 3D printing).
- Internal Hollowing & Mounting: The shell must be hollowed out to accommodate internal wiring harnesses, an edge computing unit, and precise mounting brackets.
- Sensor Integration & FOV Clearance: You must design exact mounting points ensuring clear Fields of View (FOV) for the following components:
- 1x Velodyne Alpha Prime 128-channel LiDAR (Center top)
- 2x Forward-facing cameras
- 4x Side-facing cameras (2 left, 2 right)
- 1x Rear-facing camera
- Part Splitting & Assembly: Because the pod is large (spanning an SUV roof), the final CAD model must be logically split into modular, interlocking pieces suitable for standard large-format 3D printers. The design must include mechanisms for assembly (e.g., holes for threaded heat-set inserts, bolts, or snap-fits).
- Roof Curvature Matching: The base of the pod needs to be shaped to accommodate the general roof curvature of a Hyundai Ioniq 5 and include mounting points for a roof rack/crossbars.
Deliverables:
- Source 3D files
- Universal solid CAD models (.STEP and .IGES)
- Print-ready mesh files (.STL or .3MF) properly oriented for the split parts.
- A brief visual render showing the assembled parts.
Due Date : Jun 7 read less
Project Overview:
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the in... read more
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the in... read more
Project Overview:
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the internal layout and external aesthetics.
Key Requirements & Scope of Work:
- Engineering for 3D Printing (Solid Modeling): This project requires precise parametric CAD modeling (e.g., Fusion 360, SolidWorks, CATIA), NOT just a polygon mesh for visual rendering. The model must be structurally sound and optimized for physical prototyping (SLA/FDM 3D printing).
- Internal Hollowing & Mounting: The shell must be hollowed out to accommodate internal wiring harnesses, an edge computing unit, and precise mounting brackets.
- Sensor Integration & FOV Clearance: You must design exact mounting points ensuring clear Fields of View (FOV) for the following components:
- 1x Velodyne Alpha Prime 128-channel LiDAR (Center top)
- 2x Forward-facing cameras
- 4x Side-facing cameras (2 left, 2 right)
- 1x Rear-facing camera
- Part Splitting & Assembly: Because the pod is large (spanning an SUV roof), the final CAD model must be logically split into modular, interlocking pieces suitable for standard large-format 3D printers. The design must include mechanisms for assembly (e.g., holes for threaded heat-set inserts, bolts, or snap-fits).
- Roof Curvature Matching: The base of the pod needs to be shaped to accommodate the general roof curvature of a Hyundai Ioniq 5 and include mounting points for a roof rack/crossbars.
Deliverables:
- Source 3D files
- Universal solid CAD models (.STEP and .IGES)
- Print-ready mesh files (.STL or .3MF) properly oriented for the split parts.
- A brief visual render showing the assembled parts.
Due Date : Jun 7 read less
We are looking for an experienced 3D CAD designer or mechanical engineer to reverse-engineer and design a functional, 3D-printable prototype of an autonomous driving sensor housing (roof pod). The housing is intended to be mounted on a Hyundai Ioniq 5.
Concept & Visual Reference:
We will provide a highly detailed 2D concept cutaway diagram (see attached file) to guide the internal layout and external aesthetics.
Key Requirements & Scope of Work:
- Engineering for 3D Printing (Solid Modeling): This project requires precise parametric CAD modeling (e.g., Fusion 360, SolidWorks, CATIA), NOT just a polygon mesh for visual rendering. The model must be structurally sound and optimized for physical prototyping (SLA/FDM 3D printing).
- Internal Hollowing & Mounting: The shell must be hollowed out to accommodate internal wiring harnesses, an edge computing unit, and precise mounting brackets.
- Sensor Integration & FOV Clearance: You must design exact mounting points ensuring clear Fields of View (FOV) for the following components:
- 1x Velodyne Alpha Prime 128-channel LiDAR (Center top)
- 2x Forward-facing cameras
- 4x Side-facing cameras (2 left, 2 right)
- 1x Rear-facing camera
- Part Splitting & Assembly: Because the pod is large (spanning an SUV roof), the final CAD model must be logically split into modular, interlocking pieces suitable for standard large-format 3D printers. The design must include mechanisms for assembly (e.g., holes for threaded heat-set inserts, bolts, or snap-fits).
- Roof Curvature Matching: The base of the pod needs to be shaped to accommodate the general roof curvature of a Hyundai Ioniq 5 and include mounting points for a roof rack/crossbars.
Deliverables:
- Source 3D files
- Universal solid CAD models (.STEP and .IGES)
- Print-ready mesh files (.STL or .3MF) properly oriented for the split parts.
- A brief visual render showing the assembled parts.
Due Date : Jun 7 read less
Things to know
Expert
Skill Level
$500
Fixed-rate (USD)
Full-time
Job type
Under 1-month
Job duration
Areas of expertise
3D Modeling
3D Printing Design
Assembly Design
Mechanical Design
Parametric Modeling
+2 more
Job categories
3D Modeling
3D Design Services
Engineering Design
About the client
Payment not ready
South Korea (10:03 pm)
Posted
Active
Job activity
25 Applicants
0 interviews in progress
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