Tour The Lee Company’s Museum of Early Engineering Technology

The Connecticut fluid control company has an on-site tribute to ingenuity at its headquarters.

Dan Carney, Senior Editor

November 4, 2024

8 Slides
The Museum of Early Engineering Technology's sign from the house where it was originally located.

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The Museum of Early Engineering Technology's sign from the house where it was originally located.The Lee Company

At a Glance

  • The former CEO started out collecting iconic engineering slide rules.
  • The addition of space-race-era rocket hardware necessitated a dedicated location.
  • The addition of space-race-era rocket hardware necessitated a dedicated location.

Sometimes projects are meticulously planned from start to finish, and other times small beginnings snowball into a larger project without any real intent.The latter was the case with the Early Engineering Museum at The Lee Company in Westbrook, Connecticut. Recently retired CEO Leighton Lee III appreciated the simple virtues of slide rules, and he began to collect them. But before long, Lee was scrounging space-age artifacts from eBay, and a museum was born.

The Lee Company provides parts for precision fluid control, such as plugs, check valves, pressure relief valves, flow-metering valves, and solenoid valves, along with nozzles, screens, and pumps. A typical commercial jet airliner contains an average of 4,000 parts from The Lee Company and the company supplied many parts to contractors during the Space Race.

Additionally, if you’ve ever heard the term “Lohm,” which is the application of “Ohm” in reference to electrical resistance, repurposed as “liquid Ohm” for fluid resistance, The Lee Company originated the term in the 1960s. In the 1970s, The Lee Company started publishing its Technical Hydraulic Handbook, which is regarded as a standard engineer reference for fluid control.

“This all started about 25 years ago,” Lee recalled when asked about the origins of The Museum of Early Engineering Technology. “I started collecting slide rules of all things. Slide rules were all obsolete and were being thrown away.”

Related:36 years ago the 4004 microprocessor is introduced

Young engineers were advised not to skimp on their slide rule purchase, Lee recalled. Mentors advised students to “Buy a good one because you’re going to use it the rest of your life.” These high-quality linear slide rules are the ones we might remember first, but there are also circular slide rules and ones made of paper that weren’t intended to be durable.

“There were paper slide rules that you used instead of [smartphone] apps,” said Lee. “In the old days, you’d have a paper slide rule to tell you how much paint you’d need,” when painting a room in your house. As an engineer who earned his living and built his company using these indispensable tools, Lee felt obligated to gather examples of the device for posterity. That had a predictable result. “I got so many of the things that they were cluttering up the house.”

Getting the collection booted from his house to a nearby property created the potential to add artifacts beyond the ingenious slide rules. “Nobody’s going to want to see slide rules,” Lee concluded, wondering, “What else can I put in here?”

As a supplier of crucial, if unseen, components to the aviation and space industries, The Lee Company’s parts are incorporated into crucial space race hardware. That made these systems appealing artifacts to collect. At about the same time, NASA instructed the old Apollo-era contractors to get rid of their inventories of old parts, as the agency prepared for a new generation of hardware. As a result, potential exhibits flooded onto the market, Lee recalls.

Related:See the Apollo Lunar Rover Like Never Before

“I could buy it on eBay with just a few clicks, so I didn’t have to go to California,” he said. These components were “all the scratch-and-dent and oversupply parts.” As such, the Early Engineering Technology Museum isn’t precious about them. “My stuff, you can pick it up and touch it,” Lee explained

A challenge in acquiring these parts wasn’t other collectors, it was the value of some of the materials used to make them. “It is only valuable to nut jobs like me.”

But there was valuable material inside. “Rocket engines are put together with hollow tubes that are brazed together,” Lee said. “A lot of times that has gold and silver in it.” That pitted Lee against people who wanted to reclaim the precious metals when bidding on the parts.

The museum started in a small house near The Lee Company’s headquarters, but it recently moved into the office building itself. This makes tours by visiting engineers easier.

“I realized I couldn’t maintain the little house and now the company has the museum for sales purposes,” Lee explained. “A lot of engineers visit us to work on problems and it is a nice thing for a visiting engineer to see.”

Click through our photo gallery for a virtual visit.

About the Author

Dan Carney

Senior Editor, Design News

Dan’s coverage of the auto industry over three decades has taken him to the racetracks, automotive engineering centers, vehicle simulators, wind tunnels, and crash-test labs of the world.

A member of the North American Car, Truck, and Utility of the Year jury, Dan also contributes car reviews to Popular Science magazine, serves on the International Engine of the Year jury, and has judged the collegiate Formula SAE competition.

Dan is a winner of the International Motor Press Association's Ken Purdy Award for automotive writing, as well as the National Motorsports Press Association's award for magazine writing and the Washington Automotive Press Association's Golden Quill award.

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He has held a Sports Car Club of America racing license since 1991, is an SCCA National race winner, two-time SCCA Runoffs competitor in Formula F, and an Old Dominion Region Driver of the Year award winner. Co-drove a Ford Focus 1.0-liter EcoBoost to 16 Federation Internationale de l’Automobile-accredited world speed records over distances from just under 1km to over 4,104km at the CERAM test circuit in Mortefontaine, France.

He was also a longtime contributor to the Society of Automotive Engineers' Automotive Engineering International magazine.

He specializes in analyzing technical developments, particularly in the areas of motorsports, efficiency, and safety.

He has been published in The New York Times, NBC News, Motor Trend, Popular Mechanics, The Washington Post, Hagerty, AutoTrader.com, Maxim, RaceCar Engineering, AutoWeek, Virginia Living, and others.

Dan has authored books on the Honda S2000 and Dodge Viper sports cars and contributed automotive content to the consumer finance book, Fight For Your Money.

He is a member and past president of the Washington Automotive Press Association and is a member of the Society of Automotive Engineers

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