What are the responsibilities and job description for the Mechanical Design Engineer II position at honeywell2-pilot?
The future is what you make it. When you join Honeywell, you become a member of our global team of thinkers, innovators, dreamers, and doers who make the things that make the future. That means changing the way we fly, fueling jets in an eco-friendly way, keeping buildings smart and safe and even making it possible to breathe on Mars. Working at Honeywell isn’t just about developing cool things. That’s why all of our employees enjoy access to dynamic career opportunities across different fields and industries.
Are you ready to help us make the future?
Be part of a team that designs, develops, and integrates highly complex software functions for the industrial business as part of Honeywell’s Safety & Productivity Solutions (SPS) group. SPS creates solutions serving more than 500 million workers worldwide in the energy, construction, industrial safety, transportation & logistics, retail, and healthcare sectors. You will be an active and integral member of a team to achieve the completion of goals. You will also generate innovative solutions in work situations; trying different and novel ways to deal with problems and opportunities.
We are seeking an advanced mechanical engineer to be part of a new team exhibiting the entrepreneurial mindset. We are looking for a creative individual who wants to be part of a team and eager to share their wealth of knowledge while learning from others. “It can’t be done” violates the core of their being. This will be a person who is driven by learning and a risk taker. In simple terms, you will love being on this team if being satisfied riding the wave is not in your vocabulary.
KEY RESPONSIBILITIES
· Be a major contributor on a mechanical system entailing gears, assemblies, motors, and discrete mechanics of movement.
· Work with the lead on the construction of the prototype from the ground up.
· Verifying and testing the structural requirements of the overall system to keep the structural integrity intact.
· Cross collaboration with the electrical and software engineers to ensure a cohesive system.
· Simulate the end system to prove feasibility
· Eloquently communicate and document findings.
· Work collaboratively with software to assess and address tradeoffs.
