Within the walls of James Engineering, a dedicated engineer works tirelessly to perfect vital components and assemblies. Dave Schlosser, head engineer for the Coloradoan OEM shop, and his crew of engineers team up to draw, assemble, and manufacture the one-of-a-kind deburring machines sold by James Engineering. But Schlosser’s career in engineering began way before he joined the J.E. family.
“I started when I was 13 in my dad’s garage; he welded, so I’d help him with welding. Then I wanted to be a machinist because my dad was one,” Schlosser states. He got his foot in the industry’s door early, which eventually nudged him to go to school for machining. Eventually, he dipped his toes into quality control before migrating into the engineering department for a different company, which was eventually bought out.
After years of completing personal projects, such as an adapter plate for his Volkswagen transmission, Schlosser realized not only was he a talented engineer, but a creator at heart. So when he found his job at James Engineering, he knew it would be the perfect position to nurture his creative desires. Schlosser gives a little insight as to what his daily tasks consist of:
“I lead the engineering team. We got a couple of interns and full-time guys. I’ll also run what goes through the machine shop and help prioritize [the projects].” When asked how the position keeps his creativity flowing, he explains, “We do drawing revisions, part revisions, and new product development.”
Updating assemblies and part drawings is crucial—this process ensures that both the engineering department and shop floor are on the same page before pieces/assemblies are completed. Concise drawings create clear communication between the two groups, which ultimately does three things: decreases the number of errors made in production, increases shop efficiency, and allows for the creation of new products. Schlosser is central to this procedure. “We started making our own cogged pulleys,” Schlosser explains, “Belt pulleys, not like gears. [These] pulleys have slots in them for grooved belts. It’s like a timing belt in a car, which has little cogs in them. This eliminates backlash in our machines. We just started doing these about six months ago.”
While this process gives Schlosser the outlet he’s always wanted, it has proven to be the biggest test for him during his time at James Engineering. “Because we are a small company, there’s a lot of tribal knowledge of how things work. It’s not quantified in a lot of cases in drawings, so that’s a big challenge—getting that knowledge from somebody’s head and getting it put [on paper].”
Despite its trials, this shared knowledge is one of the most unique parts about working at James Engineering. “There’s tech here that you don’t see anywhere else. And Jim’s got [decades] of knowledge, so I learn from him every day.” Jim Richards is the founder of the company and works closely with the engineers every day. “I take what I know and keep adding on to that.”
Schlosser has collected new information and experience throughout his whole career. The mechanical engineering industry has only continued to evolve, introducing new technology and methods to its workers at astounding rates. “When I first got into the industry, CNC machines were brand new. Now, everything is computer controlled instead of being done by hand,” Schlosser reflects. With CNC machining giving manufacturers the upper hand in efficient and speedy production, engineers such as Schlosser can turn all their ideas into reality. ‘There’s a lot of stuff I want to develop with the tech here. Jim and I talked about building a table with our gantry system where you can plug in a router and a laser. This would be used instead of having multiple machines that do the same thing. I also want to do a whole series of our own products that don’t even necessarily have to do with deburring.”
With new waves of engineers pouring into the industry every year, mechanical engineering will further evolve. Schlosser offers them his seasoned advice: “If you’re going to be a mechanical engineering designing mechanical parts, learn machining! You don’t have to be an expert at it, just know how to make parts because then you can make drawings a lot faster. Go get a job at a machine shop just so you can learn how materials are cut. With experience like that, you’ll be years ahead of your peers who also just got out of school.” As somebody who worked in a machine shop before entering the engineering field, Schlosser knows firsthand how effective this method can be. “Learn how whatever you’re working on is made, whether it’s plastic, metals, etc.”
The mechanical engineering field is one that provides countless learning opportunities, and Schlosser cannot stress enough how important it is to take each one you can get your hands on. By doing so himself, he has worked a plethora of jobs that have built upon his knowledge every day. Schlosser’s time at James Engineering has not only taught him about hydraulics and pneumatics, but it has strengthened his abilities to problem solve and lead a team. Schlosser is coming up on his third year at the shop, and is given the freedom to do what he loves best—create.
“It all comes from your head, and then it’s in your hands. That’s what’s really cool about mechanical engineering.”
A cool career, indeed.