Energy & Power
The Museum's collections on energy and power illuminate the role of fire, steam, wind, water, electricity, and the atom in the nation's history. The artifacts include wood-burning stoves, water turbines, and windmills, as well as steam, gas, and diesel engines. Oil-exploration and coal-mining equipment form part of these collections, along with a computer that controlled a power plant and even bubble chambers—a tool of physicists to study protons, electrons, and other charged particles.
A special strength of the collections lies in objects related to the history of electrical power, including generators, batteries, cables, transformers, and early photovoltaic cells. A group of Thomas Edison's earliest light bulbs are a precious treasure. Hundreds of other objects represent the innumerable uses of electricity, from streetlights and railway signals to microwave ovens and satellite equipment.
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Davies Steam Pump, Patent Model
- Description
- This model was submitted to the U.S. Patent Office with the application for the patent issued to Joseph D. Davies, of Covington, Kentucky, March 9, 1880, no. 225351.
- The model represents a direct-acting steam pump, provided with two auxiliary oscillating cylinders, which offer a constantly decreasing resistance to the movement of the steam piston during the first half of its stroke and a constantly increasing assistance during the remaining half. The purpose of this is to equalize the effective force of the steam piston throughout its stroke when the steam is used expansively.
- The two auxiliary cylinders are mounted in trunnions, one on each side of the frame of the engine. The rods from the auxiliary pistons are attached to a clamp on the main piston rod, so located that the auxiliary cylinders are perpendicular to the main piston rod when the main piston is at midstroke. The auxiliary pistons, in the model, work against a spiral spring, which is compressed during the first half of the stroke and which expands during the last half. In effect the springs act as would a flywheel, storing the energy in excess of the resistance, while steam at high pressure acts upon the engine piston, and delivering the stored energy after the steam has been cut off and is expanding in the cylinder. The inventor described his device using a fluid, as steam or water under pressure within the auxiliary cylinders.
- Reference:
- This description comes from the 1939 Catalog of the Mechanical Collections of the Division of Engineering United States Museum Bulletin 173 by Frank A. Taylor.
- Location
- Currently not on view
- date made
- 1880
- patent date
- 1880-03-09
- inventor
- Davies, Joseph D.
- ID Number
- MC.308711
- catalog number
- 308711
- accession number
- 89797
- patent number
- 225,351
- Data Source
- National Museum of American History
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Mauzey’s Patent Model of a Solar Heater – 1880
- Description
- This model was filed with the application to the U.S. Patent Office for Patent Number 227,028 issued to James P. Mauzey of Blackfoot, Montana Territory on April 27, 1880. His patent was for a new and improved solar heater. Mr. Mauzey’s design provided for a series of reflecting mirrors mounted on a rectangular frame which could be oriented so as to focus the sun’s rays upon an object to be heated. The image of the patent model shows the frame and mirrors. The frame would be oriented to point the central, oval shaped mirror directly at the sun. This mirror was shaped and oriented so as to focus the sun’s rays along a line at some distance behind the mirror frame assembly. Additional mirror elements were mounted within the frame as shown, and these too were designed to focus energy at the same distance behind the frame. The brown colored rod and material at the top of the frame modeled a curtain which could be rolled across the frame to block the mirrors as necessary for repair or adjustment. The frame assembly shown in the image was intended to be mounted on a supporting base which could be used to tilt the frame up or down to track the sun’s position in the sky. The base was in turn mounted on wheels or rollers to allow additional adjustments to track the sun. The object to be heated would be located on the base at the focal point of the mirrors. Additionally, the mirror assembly could be moved up or down relative to the base allowing for an accurate focus on the object to be heated. Diagrams showing the complete design of the heater can be found in the patent document online www.USPTO.gov/patents/process/search/index.jsp). Research of available trade literature and other sources has not revealed any commercial use that may have made use of Mr. Mauzey’s invention. His work was mentioned by Charles H. Pope, a solar heating advocate, in his 1903 book titled Solar Heat: Its Practical Applications. However, Mr. Pope indicated no additional information on Mauzey had been found.
- The patent model is constructed of tin, wood and fabric. It models the mirror assembly and curtain mechanism. Also shown are the side arms that would have attached the assembly to the supporting base.
- Location
- Currently not on view
- date made
- 1880
- patent date
- 1880-04-27
- inventor
- Mauzey, James P.
- ID Number
- MC.251506
- accession number
- 48890
- catalog number
- 251506
- patent number
- 227,028
- Data Source
- National Museum of American History
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Ericsson Hot-Air Engine, Patent Model
- Description
- This model was filed with the application to the U.S. Patent Office for Patent Number 226,052 issued to John Ericsson of New York, New York on March 30, 1880. The patent was for an improvement in air engines.
- In this type of engine a charge of air is repeatedly heated and cooled as it is transferred from one end to the other of a single cylinder. One end of the cylinder is surrounded by a furnace, the other end of is water jacketed. The air expands and contracts beneath a work piston that travels through a short stroke near the upper end of the cylinder. The air is displaced from end to end of the cylinder at the proper time by a large loosely fitting transfer piston independently connected to the crankshaft.
- Mr. Ericsson claimed his design improved the method of connecting the short stroke of the work piston so as to magnify the length of its stroke at the crankshaft. This also produced a longer stroke for the exchange piston in order to properly time its movement. He also made provisions for a water pump that was operated by the engine. It circulated water into the jacket surrounding the engine’s cylinder in order to more rapidly cool the hot air in the upper part of the cylinder.
- Mr. Ericsson was a prolific inventor; his inventions included many types of steam engines and associated apparatus as well as hot air engines. He was the designer of the USS Monitor for the North during the Civil War, and that vessel included one of his then new marine steam engine designs.
- The patent model is shown in the image. It is made of brass, steel and wood. All of the key elements of the patent are illustrated by the model including the crank mechanism and the water pump. The upper cylinder is cut away to illustrate the motion of the two pistons. Diagrams showing the complete design can be found in the patent document online (www.USPTO.gov).
- Location
- Currently not on view
- patent date
- 1880-03-30
- inventor
- Ericsson, John
- ID Number
- MC.251286
- catalog number
- 251286
- accession number
- 48865
- patent number
- 226,052
- Data Source
- National Museum of American History
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Holley’s Patent Model of a Steam-Boiler Furnace – 1880
- Description
- This model was filed with the application to the U.S. Patent Office for Patent Number 238,235 issued to Alexander Lyman Holley of Brooklyn, NY on March 1, 1881. Holley’s patent was for an improved gas-fueled steam-boiler for use in a furnace. Mr. Holley noted that past objections to the use of gas for fuel dealt with poor combustion of the gas due to incomplete mixing with combustion air. His invention related to a new way to mix the air and gas more completely prior to introduction into the combustion chamber. He provided for separate entry flues for the gas and air. These ran beneath the floor of the combustion chamber. Slots were cut into the floor perpendicular to the flues. Alternate slots were connected to either the gas flue or air flue. In his patent application drawing, he showed five slots – two for gas and three for air. He conceived that the pressure feeding the air and gas would create jets through the slots into the combustion chamber where mixture would occur and combustion take place. To facilitate this, he included a curved diaphragm as the top of the combustion chamber. The combustion gases would then be carried upwards through tubes in the boiler and thence to the exhaust. Research of available trade literature and other sources has not revealed any commercial product that may have made use of Mr. Holley’s invention. Mr. Holley was an engineer of great reputation in the steel making industry and was a founding member of the American Society of Mechanical Engineers.
- The patent model is constructed of wood and sheet metal. The boiler is sheet metal painted black. The wooden frame of the model is painted red with black lines to give it the appearance of being made of brick. The model conforms to the patent drawings and represents the major elements of the patent. The air and gas inlet pipes and flues are present. The burner is made of wood and has slots cut into it to represent the alternating gas air and gas ports. The model has a tag that includes the date (January 24, 1880) of the patent application.
- Location
- Currently not on view
- date made
- ca 1880
- patent date
- 1881-03-01
- inventor
- Holley, Alexander L.
- ID Number
- MC.336506
- catalog number
- 336506
- accession number
- 1978.0318
- patent number
- 29,007
- 238,235
- Data Source
- National Museum of American History
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Sciple's Patent Model of a Portable Steam Engine –1879
- Description
- This model was filed with the application to the U.S. Patent Office for Patent Number 224,482 issued to Harry M Sciple of Selin's Grove, Pennsylvania on February 10, 1880. The patent was for a new and improved portable steam engine. Mr. Sciple's goals for his design were lightness, durability and low cost. He claimed his innovation was making the majority of the engine from only two castings. The first and largest was the base, steam cylinder, and steam valve. The second was the cylinder head combined with the crosshead guides. In the image of the model the steam valve is the horizontal cylinder on the side of the steam cylinder; and the crosshead and guides casting is the arch shape at the top. The piston rod is attached to the crosshead which can be seen across the arch. Another new design feature claimed by Mr. Sciple was the use of vee- shaped crosshead guides. Instead of the typical metal sliding on metal crosshead and guide design, he used rubber coated rollers attached to each end of the crosshead. The connecting rod is the inverted u-shaped hoop seen connected to a bar across the crosshead and descending on each side of the cylinder to the crankshaft. The eccentric gear is shown on the shaft just outside the base. The rod connected to it operates the steam valve via the crank arm shown.
- Before the widespread use of electric motors, small high-speed steam engines such as the Sciple design were common for general light duty. Simple and dependable, such engines were cheap to build and easy to operate and maintain. They could be connected directly to pumps, generators, blowers and other machinery.
- All of the key elements of the patent are illustrated in detail by the model. The patent model parts representing the large castings are made of lead. Other metal is used for the moving parts. Diagrams showing the complete design of the patent can be found in the patent document online at the United States Patent and Trademark Office website, www.uspto.gov.
- date made
- 1880
- patent date
- 1880-02-10
- inventor
- Sciple, Harry M.
- ID Number
- MC.308710
- catalog number
- 308710
- accession number
- 89,797
- patent number
- 224,481
- Data Source
- National Museum of American History
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