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Design Checker Jobs in Michigan (NOW HIRING)

Mechanical Design Engineer - CATIA V5

Southfield, MI · On-site

$69K - $94K/yr

Senior CATIA V5 Mechanical Designer / Checker - Body-in-White (BIW) Tooling & Transfer Systems ... Responsibilities Design and check Body-in-White (BIW) tooling using CATIA V5 Develop detailed 3D ...

Mechanical Design Engineer - CATIA V5

Southfield, MI · On-site

$69K - $94K/yr

Senior CATIA V5 Mechanical Designer / Checker - Body-in-White (BIW) Tooling & Transfer Systems ... Responsibilities Design and check Body-in-White (BIW) tooling using CATIA V5 Develop detailed 3D ...

May research product design, capabilities, and compatibility ranges. · May oversee the writing ... Microsoft accessibility checker, Adobe accessibility checker, etc.). Required Skills : Basic ...

Design Checker information

See Michigan salary details

$31

$48

$58

How much do design checker jobs pay per hour?

As of Jul 16, 2026, the average hourly pay for design checker in Michigan is $48.30, according to ZipRecruiter salary data. Most workers in this role earn between $42.74 and $56.59 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Design Checker, and why are they important?

To thrive as a Design Checker, you need a strong background in engineering principles, attention to detail, and proficiency in interpreting technical drawings, typically supported by relevant engineering or drafting qualifications. Familiarity with CAD software, Product Data Management (PDM) systems, and industry standards or certifications such as ASME or ISO is often required. Excellent analytical thinking, communication, and problem-solving skills help ensure design accuracy and effective collaboration with engineering teams. These skills and qualifications are crucial to maintaining product quality, compliance, and efficiency throughout the design review process.

What are Design Checkers?

Design Checkers are professionals who review and verify engineering or architectural designs to ensure they meet required standards, codes, and specifications. Their primary responsibility is to check drawings and plans for accuracy, completeness, and compliance with project requirements. They often work closely with engineers, architects, and drafters to identify and correct errors or inconsistencies before the designs are finalized. This role is crucial in preventing costly mistakes and ensuring project quality and safety.

What are some common challenges Design Checkers face when reviewing complex engineering drawings?

Design Checkers often encounter challenges such as identifying subtle inconsistencies between different drawing views, ensuring compliance with industry standards, and verifying that all specifications are met before release. They must pay close attention to detail while managing tight deadlines and collaborating with engineers and drafters to resolve discrepancies. Excellent communication and problem-solving skills are essential, as Design Checkers frequently need to provide constructive feedback and facilitate revisions to maintain high-quality documentation.

What is the difference between Design Checker vs Draftsman?

AspectDesign CheckerDraftsman
CredentialsTypically requires certifications in design or drafting software, sometimes a technical diplomaUsually holds a diploma or certificate in drafting or technical drawing
Work EnvironmentWorks in design firms, architectural or engineering offices, reviewing plansWorks in drafting studios, construction sites, creating detailed technical drawings
Industry UsageCommonly employed in architecture, engineering, and construction industriesPrimarily used in construction, manufacturing, and architectural firms

The main difference is that a Design Checker reviews and verifies design plans for accuracy and compliance, while a Draftsman creates detailed technical drawings based on specifications. Both roles require technical skills, but the Design Checker focuses on quality control, whereas the Draftsman focuses on producing detailed drawings.

What Does a Design Checker Do?

As a design checker, you are responsible for examining the engineering drawings of parts, assemblies, and installations to ensure accuracy and completeness. You have interpretation duties to detect any errors or discrepancies within these 3D design documents. Your responsibilities require you to annotate any changes that need to be made and communicate with others how to pursue a better design for manufacturability. You consult for angles, dimensions, bend allowances, and tolerances to avoid mistakes during and after development. You also determine material and tool selection using your knowledge of drafting and manufacturing methods.

What are popular job titles related to Design Checker jobs in Michigan? For Design Checker jobs in Michigan, the most frequently searched job titles are:
What job categories do people searching Design Checker jobs in Michigan look for? The top searched job categories for Design Checker jobs in Michigan are:
What cities in Michigan are hiring for Design Checker jobs? Cities in Michigan with the most Design Checker job openings:
What are popular job titles related to Design Checker jobs in MI? For Design Checker jobs in MI, the most frequently searched job titles are:
Infographic showing various Design Checker job openings in Michigan as of July 2026, with employment types broken down into 89% Full Time, 4% Part Time, and 7% Contract. Highlights an 98% In-person, and 2% Remote job distribution, with an average salary of $100,471 per year, or $48.3 per hour.
Mechanical Design Engineer - CATIA V5

Mechanical Design Engineer - CATIA V5

GABLETEK

Southfield, MI • On-site

$69K - $94K/yr

Full-time

Posted 17 days ago


Job description

Senior CATIA V5 Mechanical Designer / Checker - Body-in-White (BIW) Tooling & Transfer Systems
Location: Southfield, MI
Travel: 5-20% (Domestic & International as Required)
About the Role
We are seeking an experienced Senior CATIA V5 Mechanical Designer / Checker with a strong background in Body-in-White (BIW) tooling, transfer systems, and fixture design. This position is focused on automotive body shop automation and requires hands-on experience designing and checking tooling for production environments.
Responsibilities
Design and check Body-in-White (BIW) tooling using CATIA V5
Develop detailed 3D models and 2D manufacturing drawings
Design transfer systems and tooling fixtures for automotive body shops
Modify existing tooling and develop new mechanical designs for simple to complex systems
Create kit sheets illustrating design revisions and modifications
Review customer specifications, sketches, and engineering data to ensure design accuracy
Apply North American automotive standards and customer specifications throughout the design process
Coordinate with Project Engineers, Technical Leaders, Mechanical Engineers, suppliers, and manufacturing teams
Support supplier integration, purchased components, and imported CAD models
Participate in installation, startup, debugging, and final equipment acceptance as needed
Required Qualifications
Approximately 8+ years of mechanical design experience
Expert proficiency with CATIA V5
Extensive experience with Body-in-White (BIW) tooling
Strong background in Transfer System Design & Coordination
Experience designing:
GEO Systems
Framing Lines
Bodyside Systems
Sub-Assembly Fixtures
Tooling Fixtures
Transfer Systems
Knowledge of:
North American automotive standards
Body assembly geometry
Fixture tooling
Tool stack-up methodology
Auto assembly strategies
Part flow through body shops
Pallet systems
Robot systems
Experience importing and coordinating purchased components including:
Weld Guns
End-of-Arm Tooling (EOAT)
Switches
Supplier Models
Familiarity with:
NAAMS Standards
Customer CAD Standards
CAD attributes
CAD checking procedures
Proficient with Microsoft Office (Excel, Word, PowerPoint)
Preferred Qualifications
Associate Degree in Mechanical Technology or equivalent experience
Additional experience with Powertrain automation projects
Understanding of mechanical design sequences and controls documentation
Strong troubleshooting and problem-solving skills
Ability to interpret customer specifications and technical documentation
Knowledge of manufacturing processes and mechanical systems
Ability to work independently and within cross-functional engineering teams
Travel
Domestic and international travel may be required (approximately 5-20%) to support equipment installation, startup, commissioning, and customer acceptance.
Ideal Backgrounds
Body-in-White (BIW)
Automotive Tooling
Automation Systems
Transfer Systems
Tooling Fixtures
Machine Building
Automotive Assembly Equipment
CATIA V5 Mechanical Design