US166688A - Improvement in reciprocating engines - Google Patents

Improvement in reciprocating engines Download PDF

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US166688A
US166688A US166688DA US166688A US 166688 A US166688 A US 166688A US 166688D A US166688D A US 166688DA US 166688 A US166688 A US 166688A
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wire
mercury
cylinder
jacket
improvement
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F15FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
    • F15BSYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
    • F15B18/00Parallel arrangements of independent servomotor systems

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  • My invention which consists in the combination of a hot-air-jacket thermometer and an electric alarm, relates to improvements in steam or vapor engines, whereby the cylindercondensation arising from the alternate coolin g and heating of the piston, its rod, and the interior surfaces of the cylinder, (as well as those of the intermediate receiver in some forms of compound engines,) may be either prevented or greatly diminished.
  • This cylinder-condensation becomes greater as the measure of expansion is increased.
  • the steamjacket diminishes it to so small an extent that it may still be said to be the chief obstacle to the economical working of engines.
  • the hot-air jacket should not generally surround the v'alve-ports,butbe sufliciently withdrawn from them to avoid heating the valves by conduction. I keep watch, then, over the heat of the cylinder by keeping watch over that of the steam by means of a thermometer or pyrometer within the cylinder, or within an adjacent cavity.
  • Figure 1 denotes a top view
  • Fig. 2 a sectional elevation
  • Fig. 3 arear elevation, of a steam-engine cylinder, piston, and boiler, hot-air furnace, and feed-water heater, the adjuncts necessary to my invention.
  • A denotes the steam-engine cylinder; B, its piston; O, the hot-air furnace; B the boiler, and (J the feed-water heater, the cylinder and piston being represented in vertical section, in order to exhibit the interior arrangements, namely, the nonconducting coverin gs a b c c to the piston and which we will call wire A, and which proceeds to the pole N of a galvanic battery, F, and serves to electrically connectthis pole with the wire next above, which we will call wire B so long as the mercury is above the said wire B and also with a wire, which we will call wire 0, and which passes out through the top of the thermometer whenever the mercury touches it.
  • This wire 0 is passed out through the top of the thermometer, or screws therein in such a manner that it (the wire) can be raised or depressed at pleasure, and be fixed at any desired point, say, for instance, at 400 Fahrenheit.
  • This wire G should be connected with an electric bell or alarm apparatus, A, and through such with the pole S of the battery, so that whenever the mercury touches the wire, a current passing through wire A from the pole N, and round through wire 0 and the bell to the poleS of the battcry, would give the alarm and notify the engineer to diminish the heat in the jacket, as hereafter described.
  • the wire B passes to the electro-magnet D, and thence to the pole S of the battery, in such a manner that as long as the mercury is above B a current flows from the pole N through A through the mercury through B over the electro-magnet D, and thence to the pole S.
  • the electro-magnet is a magnet, or is attractive, and holds its armature in contact, and, through the lever which proceeds from the armature, it holds out of the cup of mercury G the wire H, which forms a portion of a circuit of another electric hell or alarm apparatus, K.
  • the electro magnet D ceases to attract the armature
  • the armature being overweighted by the opposite end of the lever, or pulled on by a spring, S ascends, the wire H descends into the cup of mercury G, the circuit of the electric bell K is complete, the bell rings and warns the engineer that a previously-selected minimum temperature, say, for instance, 370 Fahrenheit, has been reached, and that it is time to increase the heat in the jacket, as described.
  • a previously-selected minimum temperature say, for instance, 370 Fahrenheit
  • 0 is the furnace' for supplying hot air for the jacket E.
  • N and O are pipes admitting steam-jets from the boiler B and they may or should be furnished with throttle-valves or cocks P and Q, by means of which valves or cocks the flow of hot air through the pipe R, and the branch pipes S andT thereof, and through the jacket E, and thence through the pipe U into the feed-water vessel 0 is governed.
  • thermometer and the electrical alarm apparatus or apparatuses in combination with the steam-engine cylinder, and its hot-air jacket or means of heating the cylinder, as and for the purpose specified, a thermometer and the electrical alarm apparatus or apparatuses, substantially as described, applied thereto, to indicate the extremes of temperature to be ma ntained in the cylinder to prevent the formation of mist in said cylinder, as or under circumstances as stated.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Control Of Resistance Heating (AREA)

Description

6.1;. DIXWELL.
Reciprocating Engines.
Patented Aug. 17,1875.
clo'l ixwe ll.
".FETERS, PMOTD-LITMDGHAPHER, WASHINGTON, [1.6.
Jnrrnn STATES ATENT FFIG'E.
IMPROVEMENT IN RECIPROCATING ENGINES.
Specification forming part of Letters Patent No. 166,688, dated August 17, 1875; application filed May 22, 1875.
To all whom it may concern:
Be it known that I, GEORGE B. DIxwELL, of Boston, of the county of Suffolk and State of Massachusetts, have invented new and useful Improvements in Steam-Engines; and do hereby declare the same to be fully described in the following specification, and represented in the accompanying drawings.
My invention, which consists in the combination of a hot-air-jacket thermometer and an electric alarm, relates to improvements in steam or vapor engines, whereby the cylindercondensation arising from the alternate coolin g and heating of the piston, its rod, and the interior surfaces of the cylinder, (as well as those of the intermediate receiver in some forms of compound engines,) may be either prevented or greatly diminished. This cylinder-condensation becomes greater as the measure of expansion is increased. The steamjacket diminishes it to so small an extent that it may still be said to be the chief obstacle to the economical working of engines.
I prefer to derive the hot air from a separate furnace urged by a system of steam-jets, which, being increased or diminished by one or more regulating throttle-valves, will increase or diminish the supply of hot air to the jacket; but any other proper means of heating and regulating the heat of the jacket may be used. The hot-air jacket should not generally surround the v'alve-ports,butbe sufliciently withdrawn from them to avoid heating the valves by conduction. I keep watch, then, over the heat of the cylinder by keeping watch over that of the steam by means of a thermometer or pyrometer within the cylinder, or within an adjacent cavity.
Of the aforementioned drawings, Figure 1 denotes a top view, Fig. 2 a sectional elevation, and Fig. 3 arear elevation, of a steam-engine cylinder, piston, and boiler, hot-air furnace, and feed-water heater, the adjuncts necessary to my invention.
In such drawings, A denotes the steam-engine cylinder; B, its piston; O, the hot-air furnace; B the boiler, and (J the feed-water heater, the cylinder and piston being represented in vertical section, in order to exhibit the interior arrangements, namely, the nonconducting coverin gs a b c c to the piston and which we will call wire A, and which proceeds to the pole N of a galvanic battery, F, and serves to electrically connectthis pole with the wire next above, which we will call wire B so long as the mercury is above the said wire B and also with a wire, which we will call wire 0, and which passes out through the top of the thermometer whenever the mercury touches it. This wire 0 is passed out through the top of the thermometer, or screws therein in such a manner that it (the wire) can be raised or depressed at pleasure, and be fixed at any desired point, say, for instance, at 400 Fahrenheit. This wire G should be connected with an electric bell or alarm apparatus, A, and through such with the pole S of the battery, so that whenever the mercury touches the wire, a current passing through wire A from the pole N, and round through wire 0 and the bell to the poleS of the battcry, would give the alarm and notify the engineer to diminish the heat in the jacket, as hereafter described. The wire B passes to the electro-magnet D, and thence to the pole S of the battery, in such a manner that as long as the mercury is above B a current flows from the pole N through A through the mercury through B over the electro-magnet D, and thence to the pole S. Thus, as long as the mercury is above B, the electro-magnet is a magnet, or is attractive, and holds its armature in contact, and, through the lever which proceeds from the armature, it holds out of the cup of mercury G the wire H, which forms a portion of a circuit of another electric hell or alarm apparatus, K. Thus, so long as the mercury is above the wire B the circuit of the bell K is broken; but as soon as the mercury descends below the wire B the current from A to B is broken, the electro magnet D ceases to attract the armature, and
the armature, being overweighted by the opposite end of the lever, or pulled on by a spring, S ascends, the wire H descends into the cup of mercury G, the circuit of the electric bell K is complete, the bell rings and warns the engineer that a previously-selected minimum temperature, say, for instance, 370 Fahrenheit, has been reached, and that it is time to increase the heat in the jacket, as described. It should have been mentioned that the wire B is supposed to pierce the thermometer at the point marking the said temperature of 370 Fahrenheit. 0 is the furnace' for supplying hot air for the jacket E. N and O are pipes admitting steam-jets from the boiler B and they may or should be furnished with throttle-valves or cocks P and Q, by means of which valves or cocks the flow of hot air through the pipe R, and the branch pipes S andT thereof, and through the jacket E, and thence through the pipe U into the feed-water vessel 0 is governed.
Now, let us imagine the engine to be set at work, and that the hot-air furnace is acting too energetically. The mercury in the thermometer will rise until it touches the wire 0, and will thus complete the circuit with the wire A and the interposed electric bell will give the needed alarm, and the engineer will diminish the action of the furnace by partially closing the throttle-valves P and Q. If these the alarm, and notifies the engineer to in-' crease the action of the furnace by partially opening the throttle-valves P and Q.
I claim In combination with the steam-engine cylinder, and its hot-air jacket or means of heating the cylinder, as and for the purpose specified, a thermometer and the electrical alarm apparatus or apparatuses, substantially as described, applied thereto, to indicate the extremes of temperature to be ma ntained in the cylinder to prevent the formation of mist in said cylinder, as or under circumstances as stated.
GEORGE BASIL DIXWELL. Witnesses:
R. H. EDDY, J. R. SNoW.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20080272499A1 (en) * 2007-05-03 2008-11-06 Teledyne Licensing, Llc Through-wafer vias

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20080272499A1 (en) * 2007-05-03 2008-11-06 Teledyne Licensing, Llc Through-wafer vias

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