Have you ever wondered how machine tools looked in the 1850s? Or were the modern precision machine tool industry originated? Join us as we tour the @American Precision Museum, a place that gave birth to the ancestors of many of the machine tools currently used.
Located in Windsor, Vermont, the American Precision Museum showcases a world-class collection of historic machines. The location of this fascinating museum was not selected randomly. Before turning into the American Precision Museum, the building used to be the Robbins & Lawrence Armory, a National Historic Landmark. Here, in 1846, Samuel Robbins, Nicanor Kendall, and Richard Lawrence took the bold step of bidding on a government contract for 10,000 rifles. Having won the contract, they then constructed a four-story brick building beside Mill Brook. They brought in workers and mechanics, invented new machines, adapted old ones, and perfected techniques for producing interchangeable parts. Within a few years, they were exporting not only rifles but also their new metal cutting machines across North America, to England and around the world. The technology for making guns was quickly adapted to making consumer products as well as parts for many other machines.
Nowadays, the museum’s holdings include an unparalleled collection of industrial machinery spanning the first one hundred years of precision manufacturing, along with fine examples of early machined products including rifles, sewing machines, and typewriters. Photographs and archival records provide additional resources for interpreting this critical phase of the Industrial Revolution.
If you are a machinist, a metalworker, or simply passionate about manufacturing and its history, this is a MUST-VISIT place! The museum is open Monday through Friday during the winter and seven days a week during the summer.
Learn more about the museum and the exhibition at https://americanprecision.org/
Libertation of atomic and nuclear energies. Using his Compound Disintegrator (at right) Keely could progressively dissociate molecules to their atomic constituent parts; then dissociate those atoms into their constituent parts and so on. This is to say Keely could "slow release" a chemical (molecular) explosion under full and safe control at whatever speed he desired that release to be. Likewise he could "slow release" an atomic explosion and even a nuclear release at will. He did all this (and more) using a fine and masterly control over oscillation and vibration through his marvelous analog machines. This particular device at right is in the American Precision Museum. |
(click to enlarge) More photos of this amazing device can be seen here. |
Figure 7.12 - Keely's Compound Disintegrator - an analog Complex Signal Generator
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