Tutor Intelligence
11-50 employees
Education Management
E-Learning
Tutoring
About Tutor Intelligence
Tutor Intelligence is an education technology company focused on providing personalized tutoring solutions through an AI-driven platform. Their mission is to enhance student learning outcomes by matching learners with expert tutors and leveraging data analytics to tailor educational content. The company offers services for K-12 students, college preparation, and professional skill development, aiming to make quality education accessible and effective. Tutor Intelligence combines technology and human expertise to create a scalable and adaptive learning environment.
3 months ago
Mechanical Manufacturing Engineer
Boston - Remote
Full-time
Mid Level
Mechanical Engineer
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Description
- Tutor Intelligence is building the technology and processes that allow robots to operate where they’ve never been practical before: inside the everyday American factory. We believe that versatile, reliable, and highly autonomous robotic systems will reshape industrial work in our lifetimes, and we’re engineering both the hardware and intelligence to make that future real.
- As a robotics company that deploys our systems directly into active production environments, every mechanical decision made at Tutor impacts real throughput, real operators, and the global physical economy. We design hardware that doesn’t just work in CAD or in a lab, it works on concrete floors, in dusty warehouses, and in high-volume industrial workflows.
- We’re looking for a Mechanical Manufacturing Engineer who thrives at the intersection of design, manufacturing, and real-world performance. You’ll take ownership of mechanical systems across their entire lifecycle, designing parts that assemble cleanly, survive industrial abuse, integrate tightly with electrical and controls teams, and maintain reliability thousands of cycles into the field.
- You’ll be embedded on the floor with our robots, partnering with technicians, manufacturing, supply chain, and field operations to turn insights into rapid iterations. Your work will shape the quality of our builds, the speed of our production, and the durability of the machines we deploy at customer sites.
- This role requires someone who is hands-on, mechanically rigorous, fast-moving, and motivated by seeing their engineering decisions show up in the real world. If you want to build hardware that people rely on every single day, this is the place.
- What You’ll Do:
- Own mechanical assemblies across their full lifecycle: design, prototyping, testing, documentation, release, and support in production and field environments.
- Work side-by-side with technicians and robot operators to observe real behavior, diagnose issues, and drive mechanical improvements grounded in field reality.
- Design hardware that is robust, simple to assemble, tolerant to operator variability, and maintainable at scale (fixtures, brackets, enclosures, EOAT, strain relief systems, cable routing, etc.).
- Apply sound GD&T, tolerance stack-up analysis, fastening strategy, alignment features, and material selection to ensure consistent builds and high reliability.
- Iterate quickly: prototype, test, measure, refine, and close the loop with manufacturing feedback to continuously improve product quality and throughput.
- Partner with electrical, controls, supply chain, quality, and field service teams to ensure designs integrate cleanly across the entire robot system.
- Create clear, concise engineering documentation—drawings, revision-controlled BOMs, WIs, ECOs, and specifications that support accurate and repeatable builds.
- Drive manufacturing excellence by simplifying assemblies, improving build sequencing, reducing cycle time, and elevating craftsmanship expectations across the team.
- Support safety across all mechanical and electromechanical designs, accounting for guarding, load paths, strain relief, pinch points, grounding, and stability.
- Act as a system-level thinker, proactively identifying upstream and downstream impacts and ensuring alignment with operational, electrical, and robotics engineering needs.
- In the first 90 days, you will contribute to key mechanical workstreams on new product launches, improve reliability of existing systems, support new manufacturing setups, deliver manufacturable designs, and collaborate closely with technicians and engineers.
- Salary Range: $75,000 - $110,000 per year
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Requirements
- 2–7 years of experience in mechanical, electromechanical, manufacturing, or robotics engineering (startup or hardware product environment strongly preferred).
- Strong foundational mechanical engineering skills: GD&T, tolerance analysis, mechanisms, fastening, materials, thermal considerations, structural thinking.
- High proficiency with SolidWorks (or similar) including assemblies, configurations, drawings, and manufacturable CAD.
- Demonstrated ability to be hands-on: assembling hardware, diagnosing mechanical issues, inspecting builds, performing root-cause analysis, and validating designs physically—not just in simulation.
- Experience designing for CNC machining, sheet metal, injection molding, additive manufacturing, and creating production-ready drawings and BOMs.
- Experience collaborating closely with electrical and controls engineers; comfortable integrating PCBs, sensors, cabling, connectors, and electromechanical components.
- Strong documentation discipline: clean, accurate ECOs, version control, structured BOMs, and unambiguous drawings and work instructions.
- Excellent communication skills—able to clearly convey issues, design intent, risks, and test results to technical and non-technical teams.
- A mindset of ownership, urgency, and craftsmanship. You care deeply about the quality of the hardware you build and how it performs in the field.
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Benefits
- Competitive salary within the range of $75,000 to $110,000 per year.
- Opportunity to work on impactful robotics hardware in a fast-moving environment.
- Collaborative cross-disciplinary team environment.
- Hands-on role with direct impact on real-world industrial systems.
- Potential for career growth in robotics and manufacturing engineering.