Robertson Steam Engine Indicator
Robertson Steam Engine Indicator
- An engine indicator is an instrument for graphically recording the pressure versus piston displacement through an engine stroke cycle. Engineers use the resulting diagram to check the design and performance of the engine. The James L. Robertson & Sons company of New York, NY, manufactured this steam indicator set about 1906. The indicator is based on a design patented by Joseph W. Thompson (Patent No. 167,364, August 31, 1875) which made improvements in the mechanisms driving the recording stylus thus allowing improved measurements of higher speed steam engines. The design also includes elements from another patent by Mr. Robertson (No. 815,038, Mar 13, 1906). It dealt with the reduction wheel mechanism below the recording drum and specifically to the regulation of cord tension to improve accuracy. The reduction mechanism allowed for measuring engines with varying piston throw lengths. This indicator set includes the indicator itself; extra springs of varying stiffness for different steam pressures; a reducing wheel to decrease the piston motion to that required by the indicator drum; with sized wooden pulleys for different piston stroke lengths; an extra indicator piston of small diameter for very high pressures; scales for measuring the area of the diagram; servicing tools; and extra blanks. The piston causes the stylus to rise and fall with pressure changes in the engine under measurement thereby directly recording the indicator’s output on the paper. Around the drum’s base is wound a cord that is attached to the connecting rod of the piston on the steam engine being measured. This causes the drum to rotate as the engine’s piston moves. An internal coil spring causes the cord to retract and the drum to counter rotate back to its original position as the connecting rod returns. The result is a steam pressure-volume diagram which is used to measure the efficiency and other attributes of the steam engine.
- The introduction of the steam indicator in the late 1790s and early 1800s by James Watt and others had a great impact on the understanding of how the steam behaved inside the engine's cylinder and thereby enabled much more exacting and sophisticated designs. The devices also changed how the economics and efficiency of steam engines were portrayed and marketed. They helped the prospective owner of a machine better understand how much his fuel costs would be for a given amount of work performed. Measurement of fuel consumed and work delivered by the engine was begun by Watt, who in part justified the selling price of his engines on the amount of fuel cost the purchaser might save compared to an alternate engine. In the early days of steam power, the method to compare engine performance was based on a concept termed the engine’s “duty”. It originally was calculated as the number of pounds of water raised one foot high per one bushel of coal consumed. The duty method was open to criticism due to its inability to take into consideration finer points of efficiency in real world applications of engines. Accurate determination of fuel used in relation to work performed has been fundamental to the design and improvement of all steam-driven prime movers ever since Watt’s time. And, the steam indicators’ key contribution was the accurate measurements of performance while the engine was actually doing the work it was designed to do. This Robertson-Thompson steam indicator represented over one hundred years of evolution and improvement of the devices. Its ability to make recordings for a wide range of engine speeds, pressures and piston stroke lengths was a significant improvement for many applications.
- Currently not on view
- Object Name
- indicator, steam engine
- overall: 6 1/2 in x 9 1/2 in x 11 in; 16.51 cm x 24.13 cm x 27.94 cm
- overall: case - from catalog card: 6 1/2 in x 9 1/2 in x 10 1/2 in; 16.51 cm x 24.13 cm x 26.67 cm
- ID Number
- catalog number
- accession number
- Credit Line
- Gift of Koppers Co., Inc., Metal Products Division
- Steam Engines
- See more items in
- Work and Industry: Mechanical and Civil Engineering
- Measuring & Mapping
- Engineering, Building, and Architecture
- Data Source
- National Museum of American History
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