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Tooling Design Engineer Jobs in Indiana (NOW HIRING)

The Shyft Group

Design Engineer

Bristol, IN · On-site

Design Engineer The Shyft Group, Inc. Bristol, IN Regular Employee Salary Exempt What you'll do ... tooling, and option capability. Initiate changes to drawings, solids models,and bills of material.

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Senior Design Engineer (Solidworks)

Fort Wayne, IN · On-site

... design tooling aids for manufacturing; • Works with plant manufacturing engineering and operations for purpose of developing lean manufacturing processes; • Works with internal and external ...

Stellantis

Tooling Engineer

Kokomo, IN · On-site

The Tooling Engineer will be responsible for the complete part process and development including ... Aiding in design of special tools, and working with responsible parties for equipment arrangement ...

Avero

Manufacturing Engineer - Robotics

South Bend, IN

$71K - $92K/yr

Design and develop tooling, fixtures, jigs, gauges, and other production support equipment. * Create and maintain 3D models and engineering drawings using CAD software such as SolidWorks and AutoCAD.

Avero

Manufacturing Engineer - Robotics

South Bend, IN · On-site

$71K - $92K/yr

Design and develop tooling, fixtures, jigs, gauges, and other production support equipment. * Create and maintain 3D models and engineering drawings using CAD software such as SolidWorks and AutoCAD.

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All JobsTooling Design Engineer JobsTooling Design Engineer Jobs in Indiana

Tooling Design Engineer information

See Indiana salary details

$50.9K

$86.1K

$127K

How much do tooling design engineer jobs pay per year?

As of Jun 10, 2026, the average yearly pay for tooling design engineer in Indiana is $86,068.00, according to ZipRecruiter salary data. Most workers in this role earn between $69,500.00 and $98,000.00 per year, depending on experience, location, and employer.

What is the difference between Tooling Design Engineer vs Manufacturing Engineer?

AspectTooling Design EngineerManufacturing Engineer
CredentialsBachelor's in Mechanical or Industrial Engineering, CAD certificationsBachelor's in Mechanical, Industrial, or Manufacturing Engineering, CAD certifications
Work EnvironmentDesign labs, CAD software, manufacturing plantsProduction floors, design offices, plant management
Industry UsageAutomotive, aerospace, consumer goods manufacturingAutomotive, aerospace, electronics, consumer products

Tooling Design Engineers focus on creating and optimizing tools and dies used in manufacturing processes, while Manufacturing Engineers oversee the entire production process to improve efficiency and quality. Both roles require engineering backgrounds and CAD skills, but their daily tasks and focus areas differ significantly.

What are some common challenges Tooling Design Engineers face when working on new product launches?

Tooling Design Engineers often encounter challenges such as tight development timelines, evolving product specifications, and the need to balance cost-efficiency with durability in tooling materials. Collaborating closely with manufacturing teams and suppliers is crucial to ensure designs are both manufacturable and maintainable. Additionally, they must proactively address potential production bottlenecks by anticipating how tool designs will perform during large-scale manufacturing, which often requires adaptability and strong problem-solving skills.

What are Tooling Design Engineers?

Tooling Design Engineers are professionals who design and develop tools, dies, molds, jigs, fixtures, and other equipment used in manufacturing processes. They work closely with production teams to ensure that the tools they design improve efficiency, maintain quality, and meet specific production requirements. These engineers use CAD software and engineering principles to create precise and durable tooling solutions, and often collaborate with machinists and other engineers to refine their designs. Their role is vital in optimizing the manufacturing workflow and reducing production costs.

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

To thrive as a Tooling Design Engineer, you need expertise in mechanical engineering principles, CAD software proficiency, and a solid understanding of manufacturing processes, often supported by a relevant engineering degree. Mastery of tools like SolidWorks, AutoCAD, and familiarity with simulation software or GD&T certifications are commonly required. Strong problem-solving, attention to detail, and effective communication skills help you collaborate with cross-functional teams and address complex design challenges. These skills ensure the delivery of efficient, cost-effective tooling solutions that meet production and quality standards.
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Tooling Design Engineer jobs near you
Automation Design Engineer

Automation Design Engineer

Piezo Technologies

Indianapolis, IN

Full-time

Posted 10 days ago

Job description

POSITION SUMMARY

The Automation Design Engineer is a hands-on automation builder responsible for the end-to-end design, build, debugging, and commissioning of automated manufacturing equipment. This role requires direct, first-hand experience delivering automation systems from concept through installed, running production equipment. The position drives increased production capacity, improved quality, reduced cost, and the safe, reliable operation of automation systems on the manufacturing floor.

ESSENTIAL JOB DUTIES & RESPONSIBILITIES 

  • Design, physically build, debug, and implement automated manufacturing equipment including assembly automation, material handling systems, fixturing, and end-of-line test equipment.
  • Perform hands-on equipment build activities including:

    • ·        Mechanical assembly and system integration

    ·        Electrical panel build support, wiring verification, and I/O checkout

    ·        Installation of sensors, actuators, robotics, and pneumatic components

    ·        System bring-up, power-on testing, and on-machine debugging

  • Develop, test, and deploy automation software including:

    • ·        PLC logic and HMI interfaces

    ·        Robot programming

    ·        Python-based software used for automation support, test systems, data collection, analysis, or manufacturing utilities

  • Build, integrate, and commission robotic and pneumatic systems, including end-of-arm tooling, cylinders, valves, regulators, and air logic.
  • Design and build both automated assembly systems and automated material handling systems, ensuring reliable handoffs, part tracking, and system robustness.
  • Lead commissioning, debugging, and validation of automation equipment from prototype through full production ramp.
  • Own automation systems from concept through FAT, SAT, installation, validation, and sustained production support.
  • Support manufacturing by troubleshooting live production automation equipment to minimize downtime and improve OEE.
  • Implement poka-yoke, in-process inspection, and automated quality controls.
  • Perform root cause analysis of equipment failures and implement permanent corrective actions.
  • Collaborate with Manufacturing Engineering to optimize process flow, ergonomics, cycle time, and line balance.
  • Support equipment upgrades, retrofits, and obsolescence mitigation.
  • Develop standard work, maintenance documentation, and training materials for production support teams.
  • Manage automation-related capital projects, including vendor coordination and FAT/SAT activities, while maintaining hands-on technical ownership.
  • Ensure automation systems comply with applicable safety standards and regulatory requirements.
  • Maintain complete engineering documentation including schematics, software revisions, and change control.
  • Provide technical guidance to automation technicians and manufacturing support staff.
  • Drive continuous improvement initiatives focused on cost, quality, throughput, and safety.
  • Perform other duties as assigned. 

    • QUALIFICATIONS

    Experience/Background: 

  • 5 - 8+ years of demonstrated hands on experience physically building automated manufacturing equipment.
  • Proven experience building automated assembly and material handling systems.
  • Direct, hands-on experience with industrial robotics and pneumatic systems (cylinders, valves, regulators, air logic, tooling)
  • Hands-on experience supporting automation in a production environment with uptime and throughput accountability.
  • Experience in regulated or high-reliability industries (medical, aerospace, defense, automotive, oil & gas, or industrial manufacturing) preferred.
  • This position requires access to information subject to the International Traffic in Arms Regulations (ITAR). Must be a U.S. Person or Protected Individual as defined by ITAR. 

    • Skills: 

  • Strong hands-on experience with PLCs, HMIs, motion control, robotics, sensors, actuators, and industrial networks.
  • Python software experience required, applied to automation, test systems, data collection, or manufacturing support tools.
  • Proven ability to debug electro-mechanical automation equipment on the manufacturing floor.
  • Experience designing and integrating robotic systems with pneumatic tooling.
  • Ability to read, create, and debug electrical schematics and interpret mechanical drawings.
  • Experience with industrial test equipment and in-process / end-of-line testing.
  • Programming experience with PLC languages and automation software platforms.
  • CAD experience (electrical and/or mechanical) is beneficial.
  • Strong problem-solving, organizational, and documentation skills.
  • Excellent verbal and written communication skills. 

    • Education: 

  • Bachelor’s degree in Electrical Engineering, Mechanical Engineering, Automation Engineering, Mechatronics, or a related field preferred.
  • Equivalent experience may be considered in lieu of a degree. 

    • ENVIRONMENTAL & PHYSICAL REQUIREMENTS 

    Manufacturing / Non-Sedentary Requirements:

    Incumbent must be able to perform the essential functions of the job. Work may be performed in an office or warehouse environment. Typically requires the ability to spend 66%+ hours each work day doing the following activities: stand for extended periods of time, walk, bend, stoop, or climb.  May have possible exposure to dust, and may require the ability to lift and/or push up to 50 pounds 33% - 66% of the time. 

    ADDITIONAL INFORMATION REGARDING JOB DUTIES AND JOB DESCRIPTIONS 

    Job duties include additional responsibilities as assigned by one’s supervisor or another manager related to the position/department. This job description is meant to describe the general nature and level of work being performed; it is not intended to be construed as an exhaustive list of all responsibilities, duties and skills required for the position. Piezo Technologies reserves the right at any time with or without notice to alter or change job responsibilities, reassign or transfer job position or assign additional job responsibilities, subject to applicable law.  Piezo Technologies shall provide reasonable accommodations of known disabilities to enable a qualified applicant or employee to apply for employment, perform the essential functions of the job, or enjoy the benefits and privileges of employment as required by the law. 

    Employment Type: FULL_TIME

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