Natural Resources

• 

  Stoneware Crock

  Description

  This stoneware butter crock was made by John Burger, who operated a pottery in Rochester, New York, between 1839 and 1870. It is one gallon in capacity with a maker’s mark just below the rim. Its floral design is rendered in cobalt blue, and the interior is brown glazed.

  John Burger came from Alsace-Lorraine in France, and first worked at a pottery in Lyons on the Erie Canal. In 1839 he moved to Rochester and joined Nathan Clark and Company as manager of the pottery. In 1855 Burger became the owner of the pottery and continued in the business of making stoneware for domestic uses—preserve jars, churns, pitchers and batter pitchers, cream pots, jugs, molasses jugs, water fountains, beer bottles, stove tubes, and the butter pot seen here. He was joined in the business by his sons in the 1860s. Decorative floral motifs of this kind were common by the 1850s.

  Early in the 19th century, the potters themselves executed the designs, but later they employed women to paint the pottery’s motifs onto the vessels. Women’s skills in writing and in decorative techniques expressed in the home prepared them to execute designs with fluency and without any formal art education.

  date made

  1854-1867

  maker

  Burger, John

  ID Number

  CE.319884.161

  catalog number

  319884.161

  accession number

  319884

  Data Source

  National Museum of American History

• 

  Stoneware Water Cooler

  Description

  This salt-glazed, ovoid stoneware cooler was made by Eleazer Orcutt and Horace Humiston in Troy, New York. It has two large handles and features a classical figure with a lyre in relief surrounded by a series of impressed medallions highlighted in cobalt blue. The cooler was probably made for an individual or firm named A. Drown in Canaan, New York.

  The presence of nearby stoneware clays gave rise to the New York state salt-glazed stoneware tradition that, by the early 1800s, developed in villages and towns along the Hudson River. Shipped upriver, the clay returned downstream after being transformed into useful ceramic vessels. With the Erie Canal completion in 1825, stoneware production extended its range to meet the increased flow of perishable goods from the Great Lakes region.

  Stoneware clay, when fired to a temperature of about 2100 degrees F, vitrifies into highly durable ceramic material that holds liquids and keeps perishable contents cool. Stoneware potters in America, many of them immigrants from Germany and the Netherlands, maintained their European tradition of throwing coarse salt into the kiln. The salt melts in the heat and forms a pitted glassy surface on the vessels, which would otherwise be a dull grey.

  The production of these sturdy salt-glazed containers declined following improvements in tinning and canning perishable foodstuffs. In the late 1850s, the glass Mason canning jar entered the market, after which the potteries lost much of the demand for food storage containers that sustained so much of their production.

  date made

  about 1832

  maker

  Orcutt, Eleazer

  Humiston, Horace

  ID Number

  CE.300894.017

  catalog number

  300894.17

  accession number

  300894

  Data Source

  National Museum of American History

• 

  Crosby Gas Engine Indicator

  Description

  Crosby Steam Gauge & Valve Co. of Boston, Massachusetts, manufactured this steam engine indicator, serial number 6163. It consists of a small steel piston (1/8 inch); a vented brass cylinder; an internal, double wound spring, which can be changed; a small drum with a spiral spring and a single record; and a brass stylus. Accompanying the indicator is a box with fourteen springs, small tools, and an extra piston with top stem.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  maker

  Crosby Steam Gage & Valve Company

  ID Number

  MC.316799

  catalog number

  316799

  accession number

  228496

  patent number

  6163

  Data Source

  National Museum of American History

• 

  Crosby Steam Engine Indicator

  Description

  Crosby Steam Gauge & Valve Co. of Boston, Massachusetts, manufactured this steam engine indicator, serial number 330. It consists of a brass piston with one groove, a vented brass cylinder, an internal, double wound spring which can be changed, and a small drum with a spiral spring and single record. The stylus is missing. Accompanying the indicator is a box with two springs, two turn cocks, a scale, and small tools.

  This indicator was made for W. J. Hammer, Chief Inspector of Edison Light Co. There is a nickel-plated name plate on the front marked: “Property of W. J. Hammer, 65 Fifth Ave, New York.”

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  date made

  ca 1885

  maker

  Crosby Steam Gage & Valve Company

  ID Number

  MC.320555

  catalog number

  320555

  accession number

  241402

  Data Source

  National Museum of American History

• 

  Tabor Steam Engine Indicator

  Description

  Ashcroft Mfg. Co. of Bridgeport, Connecticut, manufactured this Tabor steam engine indicator, serial number 2418. It consists of a steel piston with three grooves and a guide below the spring; a vented brass cylinder; an internal, single wound spring, which can be changed; a large drum with a coil spring and a single record. There is a Houghtaling worm gear reduction apparatus and a conical brass stylus. The piston, spring, and parts of the linkage are missing. Accompanying the indicator is a box with extra springs, piston, and worm reduction gear.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  maker

  Ashcroft Mfg. Co.

  ID Number

  MC.316790

  catalog number

  316790

  accession number

  228496

  Data Source

  National Museum of American History

• 

  Steam Engine Indicator

  Description

  This steam engine indicator consists of a steel piston with three grooves; a vented steel cylinder; an external, double wound spring, which can be changed; a small drum with a spiral spring and a single record; and a brass stylus. Accompanying the indicator is a box with an extra piston and line, fourteen extra springs, a wrench, and two small parts.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.13

  accession number

  1981.0217

  catalog number

  1981.0217.13

  Data Source

  National Museum of American History

• 

  Askania Battery Operated Indicator

  Description

  Askania Werk A. G. manufactured this low pressure air indicator. It has a battery operated continuous recorder. The record is made with a metal stylus on a red waxed paper one inch in width. A small device separate from the recorder is evidently the sensing element. There is a simple mechanical multiplication of the movement. The accompanying box contains several rolls of the red wax record paper.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.20

  accession number

  1981.0217

  catalog number

  1981.0217.20

  Data Source

  National Museum of American History

• 

  Drop Cut-Off Valve and Mechanism Model

  Description

  This is a wooden model of a very simple variable drop cut-off valve gear in which a poppet valve is lifted by a bell crank operated by a cam. The cam is a cylinder that may be moved parallel to its axis, so as to bring any part of the cam against the follower of the bell crank. The cam is so shaped that the valve will open at the same time for all positions of the cam, but the valve will close progressively earlier or later as the cam is moved along its shaft.

  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

  ID Number

  MC.309819

  catalog number

  309819

  accession number

  109438

  Data Source

  National Museum of American History

• 

  Wheelock Valve and Valve Seat Model

  Description

  This is a nicely made model of the valve and valve seat patented by Jerome Wheelock, of Worcester, Massachusetts, September 22, 1885, no. 326820.

  The model represents a wide gridiron slide valve assembled on a skeletonized taper plug, which serves as the valve seat and supports the rock shaft connected to the slide by links or “toggles.” The whole assembly is designed to fit into a taper hole bored into the cylinder block and connected by suitable ports to the cylinder. The advantage of this arrangement over ordinary plug valves is that it does not require that a valve seat be formed within the large cylinder casting, and it permits the delicate fitting of the valve to the valve seat to be performed at a work bench or upon a machine away from the engine.

  The complete Wheelock valve gear (U.S. patent number 326819) consists of one steam valve and one exhaust valve at each end of a cylinder with the rock arms of the exhaust valves permanently connected to the eccentric, so that the valve is at rest during part of the travel of the eccentric, while the steam valves are connected through a detachable latch so that they may be detached and closed quickly at any point during the stroke of the piston.

  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

  1885

  ID Number

  MC.310251

  catalog number

  310251

  accession number

  108073

  Data Source

  National Museum of American History

• 

  Dreyer, Rosenkranz & Droop Steam Engine Indicator

  Description

  Dreyer, Rosenkranz, & Droop manufactured this steam engine indicator, serial number 10633. It cannot be disassembled for inspection. The stylus is missing.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.15

  accession number

  1981.0217

  catalog number

  1981.0217.15

  Data Source

  National Museum of American History

• 

  Indicator with Reducing Wheel

  Description

  This indicator, designed to meet the requirements of early 20th century high-speed engines, employs the lightest construction consistent with strength and accuracy. It is equipped with a reducing wheel, which is a self-contained device capable of reducing engine strokes of 14 to 72 inches to the proper stroke of the paper drum.

  The cylinder of this indicator is supported so that its lower end is free and its longitudinal expansion or contraction is unimpeded. The annular space between the cylinder and the casing is designed to serve as a steam jacket. The piston is an extremely thin steel shell with shallow channels on its outer surface to provide steam packing and moisture lubrication. The piston rod is hollow and is connected to the pencil mechanism by means of a swivel head that can be screwed in or out of the rod to adjust the position of the diagram on the paper. The pencil mechanism is kinematically a pantograph that theoretically gives the pencil point a movement exactly parallel to the piston and the amount of the movement of the piston is multiplied six times at the pencil point. The design of the piston spring is peculiar to this indicator. It is made of a single piece of spring steel wire wound from the middle into a double coil, the ends of which are screwed into a metal head drilled helically to receive the spring.

  The exact strength of spring is obtained by screwing the spring into the head more or less, when they are firmly fixed. The foot of the spring is a small steel bead firmly pinned to the straight portion of wire at the bottom of the spring. This takes the place of the heavier brass foot used in earlier indicators.*

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  *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

  ID Number

  MC.309833

  catalog number

  309833

  accession number

  109635

  Data Source

  National Museum of American History

• 

  Richards-Elliott Steam Engine Indicator

  Description

  The Elliot Bros. of London manufactured this steam engine indicator. It consists of a brass piston with single groove; a vented brass cylinder; an internal, single wound spring, which can be changed; a large, brass drum that is nickel plated with a coil spring and single record; and a heavy, steel stylus.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  MC.319482

  catalog number

  319482

  accession number

  237917

  patent number

  3243

  Data Source

  National Museum of American History

• 

  Elliot Bros. Steam Engine Indicator

  Description

  The Elliot Bros. of London manufactured this steam engine indicator. It consists of a small diameter brass piston; a vented brass cylinder; an internal, single wound spring, which can be changed; a small drum with a coil spring; a roll of paper inside the drum, which is hand fed; and a heavy brass slide and stylus.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.05

  accession number

  1981.0217

  catalog number

  1981.0217.05

  Data Source

  National Museum of American History

• 

  G. H. Crosby Indicator, Patent Model

  Description

  This indicator was filed to the U.S. Patent Office with the application for patent no. 219149 issued to G. H. Crosby, September 2, 1879.

  The model cannot be disassembled and the piston is stuck in the cylinder. It consists of a large drum with spiral spring and single record, but the linkage is different from the other Crosby indicators in the collection: a spring releases to move the drum back away from the pencil print.

  The improvements claimed for this design are a jacket about the steam cylinder to prevent radiation or loss of heat from the cylinder; a method of supporting the cylinder and jacket so that each might expand freely when heated; the carrying of the rotary drum on a lever so that it could be moved up to and away from the marker; and a peculiar parallel motion for effecting the straight line motion of the marker in which “the lever is connected with the piston-rod by a join, and not indirectly by a link, as in the Richards 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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  *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

  1879

  patent date

  1879-09-02

  inventor

  Crosby, George H.

  ID Number

  MC.308701

  catalog number

  308701

  accession number

  89797

  patent number

  219,149

  Data Source

  National Museum of American History

• 

  Star Steam Engine Indicator

  Description

  The Star Brass Mfg. Co. manufactured this steam engine indicator, serial number 760. It consists of a steel piston with one groove; a vented brass cylinder; an external, double wound spring, which can be changed; a small drum with a spiral spring and a single record. The stylus is missing.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  date made

  ca 1907

  maker

  Star Brass Manufacturing Company

  ID Number

  MC.319483

  catalog number

  319483

  accession number

  237917

  Data Source

  National Museum of American History

• 

  Ashcroft Tabor Steam Engine Indicator

  Description

  Ashcroft Mfg. Co. of Bridgeport, Connecticut, manufactured this Tabor steam engine indicator, serial number 2604. It consists of a brass piston with three grooves; a vented brass cylinder; an internal, single wound spring, which can be changed; a large drum with a coil spring and a single record; and a short pencil lead for the stylus. Accompanying the indicator is a box with eight springs, two turn cocks, a coil spring for the drum, and a small wooden knob. The internal spring is missing.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.06

  accession number

  1981.0217

  catalog number

  1981.0217.06

  Data Source

  National Museum of American History

• 

  Lehmann & Michels Gas Engine Indicator

  Description

  Lehmann & Michels manufactured this gas engine indicator, serial number D. R. P. 416623. It is based on patent number 1532692, which was granted to Josef Geiger of Augsburg, Germany, on April 7, 1925.

  The L & M catalog describes this instrument as a Pi-Meter and instrument to measure the mean pressure. There is no record, pointer, or dial. Most likely, it contains a heavy fly wheel that is damped, an impulse of gas pressure each cycle does work on fly wheel, and the work determines the velocity which is transcribed into a mean pressure for each stroke of the piston.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.19

  accession number

  1981.0217

  catalog number

  1981.0217.19

  Data Source

  National Museum of American History

• 

  Maihak Steam Engine Indicator

  Description

  This case contains two steam engine indicators, serial numbers 3027 and 3028, manufactured by H. Maihak of Hamburg, Germany. It consists of a steel piston with three grooves; a steel cylinder; an external spring, which is missing on both indicators; a large drum with a spiral spring and continuous record; and a brass stylus. The record paper is inside the drum and uses a ratchet and pawl to turn and retrieve it.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  date made

  1906

  ID Number

  MC.316891

  catalog number

  316891

  accession number

  229655

  Data Source

  National Museum of American History

• 

  De Juhasz Gas Engine Indicator

  Description

  This gas engine indicator, manufactured by Kalman J. De Juhasz, is very similar to another one in the collection (catalog number 311.621). It is a modification of the steam engine indicator to adapt it for use on diesel engines. The improvements consist of cooling fins, reduced masses of piston and pencil movement, light Bakelite drum, ball bearings for drum and roller, and a built-in 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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.02

  accession number

  1981.0217

  catalog number

  1981.0217.02

  Data Source

  National Museum of American History

• 

  Shimadzu Photo Recorder

  Description

  Shimadzu manufactured this gas engine indicator. It is a photographic recorder with a four sided mirror for shutter and a drive with pulley and belt to an external motor. A sensing element is enclosed, but no description is available. Accompanying the indicator is a box with a wrench, two film holders and two cans of Kodak exposed film, extra film holder and mirror assembly. Additionally, there are two tool steel parts with short, knife edges, which are probably parts of the sensing element.

  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.

  A mechanical indicator consists of a piston, spring, stylus, and recording system. The gas pressure of the cylinder deflects the piston and pushes against the spring, creating a linear relationship between the gas pressure and the deflection of the piston against the spring. The deflection is recorded by the stylus on a rotating drum that is connected to the piston. Most indicators incorporate a mechanical linkage to amplify the movement of the piston to increase the scale of the record.

  When the ratio of the frequency of the pressure variation to the natural frequency of the system is small, then the dynamic deflection is equal to the static deflection. To design a system with a high natural frequency, the mass of the piston, spring, stylus, and mechanical linkage must be small, but the stiffness of the spring must be high. The indicator is subjected to high temperatures and pressures and rapid oscillations, imposing a limitation on the reduction in mass. Too stiff a spring will result in a small displacement of the indicator piston and a record too small to measure with accuracy. Multiplication of the displacement will introduce mechanical ad dynamic errors.

  The parameters of the problem for designing an accurate and trouble free recorder are such that there is no easy or simple solution. Studying the variety of indicators in the collection shows how different inventors made different compromises in their designs.

  Location

  Currently not on view

  ID Number

  1981.0217.18

  accession number

  1981.0217

  catalog number

  1981.0217.18

  Data Source

  National Museum of American History

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