US956380A - Automatic engine-stop. - Google Patents

Automatic engine-stop. Download PDF

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US956380A
US956380A US38728707A US1907387287A US956380A US 956380 A US956380 A US 956380A US 38728707 A US38728707 A US 38728707A US 1907387287 A US1907387287 A US 1907387287A US 956380 A US956380 A US 956380A
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valve
piston
steam
exhaust
chamber
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US38728707A
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Nathaniel Chase Locke
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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03DWATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
    • E03D3/00Flushing devices operated by pressure of the water supply system flushing valves not connected to the water-supply main, also if air is blown in the water seal for a quick flushing
    • E03D3/02Self-closing flushing valves
    • E03D3/04Self-closing flushing valves with piston valve and pressure chamber for retarding the valve-closing movement
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16KVALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
    • F16K1/00Lift valves or globe valves, i.e. cut-off apparatus with closure members having at least a component of their opening and closing motion perpendicular to the closing faces
    • F16K1/30Lift valves or globe valves, i.e. cut-off apparatus with closure members having at least a component of their opening and closing motion perpendicular to the closing faces specially adapted for pressure containers
    • F16K1/304Shut-off valves with additional means
    • F16K1/306Shut-off valves with additional means with a valve member, e.g. stem or shaft, passing through the seat

Definitions

  • the object of this invention is tofproduce a compact and economically constructed automatic engine-stop that is particularly suitable for comparatively small engines, such, for an approximate example, as an engine whose steam-supply pipe from the boiler is 34 inches or less.
  • the automatic engine stops in use have generally costyabout as much for engines having small steam -supply pipes and small throttle-valves between boiler and engine as for larger engines, the cost being disproportionate.
  • Figure 1 is a top-plan viewof my new automatic engine-stop;
  • Fig. 2 is a vertical, central section, at lineA 2 2, of F ig. 1;
  • Fig. 3 is a verticahcentral section, at line 3 3, of Fig. 1;
  • Fig. 4 is an enlarged sectional view of the exhaust-valve detached from the electro-mechanical apparatus, the section being at line 3-3 of Fig. 1.
  • A is the casing of the throttlc-valve 1 and its attached pistons;
  • 2 is a partition having a steamway 3 YthroughV it and dividing the casing into a boiler-Steam chamber and an engine-steam chamber 5;
  • 6 is the inlet from the boiler into chamber 4, and 7is the outlet to the engine from the engine-steam chamber 5;
  • 8 indicates a piston cylinder extension of casing A on its boilersteam chamber side, and 9 is a piston cylinder extension ⁇ of casing A on-its enginesteam chamber side, the piston cylinder 'extensions 8 and 9 being in line one with another;
  • 10, in the particular form of construction shown, is a threaded pistonring which screws into the open end of piston cylinder 9 and which is an integral projection of the end-plate 11 of the casing on its engine-steam chamber side.
  • This endplatev 11 is provided with a bracket 12carrying a threaded spindle 13 which extends inwardly through end-plate 11 into casing A, the threaded portion of the Spindle passing through the internally threaded portion 12a of the bracket; 14 is the end-plate of the piston cylinder extension .8, and is formed with an outwardly extending cylindrical boss 15 to form an exhaust-steam chamber 16.
  • An exhaust-steamway 17 is formedin the bottom of chamber 16 and connects this chamber with the interior of piston'cylinder 8.
  • Plate 14 is also formed with a lateral exhaust-steamway 18 which leads from chamber 16 into an annular groove 19 on the under side of plate 14, the under side of which is also provided with an annular rib 20 that fits into the open end of piston cylinder extension 8, the 'outer end of which forms a wall of the annular groove 19 so that an annular chamber is thereby formed for catching moisture of condensation, if any, due to leakage of steam past the joint formed by rib 2() and cylinder 8.
  • the exhaust-steamway 18 discharges into this annular chamber, and the exhaust steam passes through the steamway 20 in flange 21 of casing A, said iiange being provided with an exhaust 22 to the open air, sewer, or otherwise as preferred.
  • the upper wall of steam-exhaust chamber 16 is formed by the inner threaded boss 23 of the bracket 24, theboss screwing into a threaded orifice in the outer side of endplate 14.
  • Bracket 24 is provided, opposite boss 23, with a cylindrical boss 25, on which is telescopically mounted a cylindrical casing 26, the outer end 27 of which is partially closed, but provided with an opening for passage of the valve-rod 28 which passes through coincident openings in bosses 23 and 25 and bracket 24.
  • the inner end of valve-rod 28 is formed valve-wise at 29 to control the exhaust steamway 20 from piston cylinder 8 into exhaust-steam chamber 16.
  • valve-rod 28 is provided with a fixed collar 30, between the upper side of which and the inner wall of end 27 of the cylinder' there is mounted a coiled spring 31 around the valve-rod, the outer end of which projects through end 27 and is provided with a collar 32, which is secured in place by any suitable means, such, for example, as a pin 33.
  • Cylinder 26 is provided with opposite lugs 34, which, by means of pintles 35, are attached to the forked arms 36 of the angular setting-lever 37, which is pivoted at 38 to a ⁇ U-shaped link 39, the upper ends of which are pivoted at 40 to the setting-lever.
  • the free ends 41 of the arms of the setting-lever are adapted to engage and interlock with a shouldered armature of the electro-mechanical appa-ratus E which is supported on plate 14.
  • the electro-mechanical apparatus need not be particularly described, as some forms are old and well known in the art.
  • Piston cylinder-ring 10 is an integral part of the end-plate 11, which on its outer side is provided with opposite ears 43, through which clamping bolts 44 extend through flanges 45 of the stuffing-box 45a, the spindle 13 passing through the stuffingbox and the perforation of end-plate 11.
  • the stufiing-box may be regulated with reference to end-plate 11.
  • lThrottle-valve 1 is provided, on each of its sides, with pistons,-on its boiler-steam chamber side with piston 46 which slides in piston cylinder extension 8, the piston 46 being loose enough in piston cylinder 8 to permit leakage of steam past it into the chamber 46l between the outer end of piston 46 and the inner side of plate 14, and out of which chamber the exhaust steamway 2O extends.
  • valve 1 On its engine-steam chamber side, valve 1 is provided with a cup-shaped piston 47 which slides in piston-ring 10; and on its boiler-steam chamber side, the stem of the valve is provided with a transverse steamway 48 which opens into a steamway 49, also in the stem or structure of the valve, this steamway 49 communicating with the chamber 50 of theV cupped piston 47, into which the inner valve-shaped end 51 of spindle 13 projects, and serves the double purpose, when it is screwed far enough within casing A, to force valve 1 against its seat in partition 2, and then to close the steamway 49.
  • Piston 46 is also preferably cupped, to better hold in place the coiled spring ⁇ which is interposed between the outer endof piston 46 and the opposed surface ofplate 14 in steam-chamber 46a.
  • Valve 1 with its attached pistons 46 and 47, is a steam-balanced structure.
  • Piston 46 is a substantially steam-balanced structure, spring 52 serving to securely hold valve 1 olf its seat in partition 2 when steam is passing from the boiler to the engine.
  • boiler steam under boiler-steam pressure, leaks past piston 46 and fills chamber 46a, whichtis then closedby ⁇ the valvular end 29 of the exhaust-valve 28.
  • the valvular end 51 of spindle 13 is out ofy contact withthe piston 47, so that steamway 49 is open into chamber 50 of piston 47, and consequently, steam at boiler pressure is also in chamber 50.
  • the angular setting-lever 37 is moved to bring itsends 41 into locking engagement with armature 42, at which time the exhaust-valve is firmly seated.
  • spindle 13 The purpose of spindle 13 isto firmly seat the throttle-valve whenever it is necessary to close down the engine-stop for the purpose of repair or otherwise.
  • the spindle 13 has no function in the active operation of the engine-stop, and may be entirely dispensed wit-h if desired.
  • An automatic engine-stop comprising a casing having a steam-inlet port and a steam-outlet port and two piston cylinders; a partition within the casing and having a steamway connecting the two chambers at its opposite sides; an end-plate having an exhaust steamway; an automatic exhaustvalve controlling said exhaust steamway; means for effecting the automatic unseating of the exhaust-valve; and a double piston throttle-valve,.the throttle-valvebeing intermediate its pistons, one of which slides in a piston cylinder adjacent to the exhaust steamway and the other of which works in a piston cylinder on the other side of the partition; the stem of the double piston throttle-valve having a steamway into a chamber in one of said pistons whereby the double piston throttle-valve is substantially balanced and a setting lever.
  • An automatic engine-stop comprising a casing having a. steam-inlet port and a steam-outlet port and two piston cylinders; a partition within the casing, and having a steamway connecting the two chambers at its opposite sides; an end-plate having an exhaust stearnway; an automatic exhaustvalve controlling said exhaust steamway; means for eii'ecting the automatic unseating of the exhaust-valve; and a double piston throttle-valve, the throttle-valve being intermediate its pistons, one of which slides in a piston cylinder adjacent to the exhaust steainway and the other of which works in a piston cylinder on the other side of the partition; the stem of the double piston throttle-valve having a steamway into a chamber in one of said pistons whereby the double piston throttle-valve is substantially balanced; and a spring interposed between the other piston and the end-plate having said exhaust steamway and a setting lever.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Control Of Throttle Valves Provided In The Intake System Or In The Exhaust System (AREA)

Description

N. u. LOCKE. AUTOMATIC ENGINE STOP. AAPPLICATION EILFDl AUG. 6, 1907.
956,380. Patented Apr. 26, 1910.
3 SHEETS-SHEET 2.
"lullig www N. C. LOGKE.
AUToMATm ENGINE STOP.
` APPLICATION FILED AUG. 6,'1907. 956,380., Patented Apr. 26, 1910.
3 SHEETS-SHEET 3.
NATHANIEL CHASE Locxn, or SALEM, MASSACHUSETTS.
AUTOMATIC ENGINE-STOP.
Speoicaton of Letters Patent.
Patented Apr. 26, 1910.
Application led August 6, 1907. Serial No. 387,287.
To all whom 'it may concern:
Be it known that I, NATHANinL CHASE Looxn, citizen of the United States of America residing at Salem, in the county of Essex an State of Massachusetts, have invented certain new and useful Improvements in Automatic Engine-Stops, of which the following is a specification, reference being had therein to the accompanying drawings.
The object of this invention is tofproduce a compact and economically constructed automatic engine-stop that is particularly suitable for comparatively small engines, such, for an approximate example, as an engine whose steam-supply pipe from the boiler is 34 inches or less.
I-Ieretofore, the automatic engine stops in use have generally costyabout as much for engines having small steam -supply pipes and small throttle-valves between boiler and engine as for larger engines, the cost being disproportionate.
Of course my new stop may bevmade of any desired size; and whatever its size it possesses the advantage of high efficiency and of compactness due to the incorporation of requisite mechanical factors in a single casing, to which is attached an exhaust-valve and electro-mechanicalv apparatus for effecting the automatic unseating of theexhaustvalve and the consequent automatic seating of the throttle-valve beween the boiler and engine. y
In the drawings, Figure 1 is a top-plan viewof my new automatic engine-stop; Fig. 2 is a vertical, central section, at lineA 2 2, of F ig. 1; Fig. 3 is a verticahcentral section, at line 3 3, of Fig. 1; and Fig. 4 is an enlarged sectional view of the exhaust-valve detached from the electro-mechanical apparatus, the section being at line 3-3 of Fig. 1.
Referring to the drawings, which illustrate the principle of my invention, and the best mode now known to me of applying that principle, A is the casing of the throttlc-valve 1 and its attached pistons; 2 is a partition having a steamway 3 YthroughV it and dividing the casing into a boiler-Steam chamber and an engine-steam chamber 5; 6 is the inlet from the boiler into chamber 4, and 7is the outlet to the engine from the engine-steam chamber 5; 8 indicates a piston cylinder extension of casing A on its boilersteam chamber side, and 9 is a piston cylinder extension` of casing A on-its enginesteam chamber side, the piston cylinder 'extensions 8 and 9 being in line one with another; 10, in the particular form of construction shown, is a threaded pistonring which screws into the open end of piston cylinder 9 and which is an integral projection of the end-plate 11 of the casing on its engine-steam chamber side. This endplatev 11 is provided with a bracket 12carrying a threaded spindle 13 which extends inwardly through end-plate 11 into casing A, the threaded portion of the Spindle passing through the internally threaded portion 12a of the bracket; 14 is the end-plate of the piston cylinder extension .8, and is formed with an outwardly extending cylindrical boss 15 to form an exhaust-steam chamber 16.
An exhaust-steamway 17 is formedin the bottom of chamber 16 and connects this chamber with the interior of piston'cylinder 8. Plate 14 is also formed with a lateral exhaust-steamway 18 which leads from chamber 16 into an annular groove 19 on the under side of plate 14, the under side of which is also provided with an annular rib 20 that fits into the open end of piston cylinder extension 8, the 'outer end of which forms a wall of the annular groove 19 so that an annular chamber is thereby formed for catching moisture of condensation, if any, due to leakage of steam past the joint formed by rib 2() and cylinder 8. The exhaust-steamway 18 discharges into this annular chamber, and the exhaust steam passes through the steamway 20 in flange 21 of casing A, said iiange being provided with an exhaust 22 to the open air, sewer, or otherwise as preferred.
The upper wall of steam-exhaust chamber 16 is formed by the inner threaded boss 23 of the bracket 24, theboss screwing into a threaded orifice in the outer side of endplate 14., Bracket 24 is provided, opposite boss 23, with a cylindrical boss 25, on which is telescopically mounted a cylindrical casing 26, the outer end 27 of which is partially closed, but provided with an opening for passage of the valve-rod 28 which passes through coincident openings in bosses 23 and 25 and bracket 24. The inner end of valve-rod 28 is formed valve-wise at 29 to control the exhaust steamway 20 from piston cylinder 8 into exhaust-steam chamber 16. lVithin cylinder 26, toward the lower portion thereof, valve-rod 28 is provided with a fixed collar 30, between the upper side of which and the inner wall of end 27 of the cylinder' there is mounted a coiled spring 31 around the valve-rod, the outer end of which projects through end 27 and is provided with a collar 32, which is secured in place by any suitable means, such, for example, as a pin 33. Cylinder 26 is provided with opposite lugs 34, which, by means of pintles 35, are attached to the forked arms 36 of the angular setting-lever 37, which is pivoted at 38 to a` U-shaped link 39, the upper ends of which are pivoted at 40 to the setting-lever. The free ends 41 of the arms of the setting-lever are adapted to engage and interlock with a shouldered armature of the electro-mechanical appa-ratus E which is supported on plate 14.
The electro-mechanical apparatus need not be particularly described, as some forms are old and well known in the art.
Vhen the coils of the electro-mechanical apparatus are energized, the shouldered armature 41 is moved out of interlocking engagement with the ends 41 of the level', and spring 31 then operates to lift the valve 29 so that exhaust steam passes from piston cylinder 8 through steamway 20 and out through the exhaust steamways 18, 19, 2O and 22.
Piston cylinder-ring 10 is an integral part of the end-plate 11, which on its outer side is provided with opposite ears 43, through which clamping bolts 44 extend through flanges 45 of the stuffing-box 45a, the spindle 13 passing through the stuffingbox and the perforation of end-plate 11.
By adjustment of the ends 45b on the clamp-bolts 44, the stufiing-box may be regulated with reference to end-plate 11.
lThrottle-valve 1 is provided, on each of its sides, with pistons,-on its boiler-steam chamber side with piston 46 which slides in piston cylinder extension 8, the piston 46 being loose enough in piston cylinder 8 to permit leakage of steam past it into the chamber 46l between the outer end of piston 46 and the inner side of plate 14, and out of which chamber the exhaust steamway 2O extends.
On its engine-steam chamber side, valve 1 is provided with a cup-shaped piston 47 which slides in piston-ring 10; and on its boiler-steam chamber side, the stem of the valve is provided with a transverse steamway 48 which opens into a steamway 49, also in the stem or structure of the valve, this steamway 49 communicating with the chamber 50 of theV cupped piston 47, into which the inner valve-shaped end 51 of spindle 13 projects, and serves the double purpose, when it is screwed far enough within casing A, to force valve 1 against its seat in partition 2, and then to close the steamway 49. Piston 46 is also preferably cupped, to better hold in place the coiled spring` which is interposed between the outer endof piston 46 and the opposed surface ofplate 14 in steam-chamber 46a.
Valve 1, with its attached pistons 46 and 47, is a steam-balanced structure. Piston 46 is a substantially steam-balanced structure, spring 52 serving to securely hold valve 1 olf its seat in partition 2 when steam is passing from the boiler to the engine. At thisI time, boiler steam, under boiler-steam pressure, leaks past piston 46 and fills chamber 46a, whichtis then closedby` the valvular end 29 of the exhaust-valve 28. At the same time,the valvular end 51 of spindle 13 is out ofy contact withthe piston 47, so that steamway 49 is open into chamber 50 of piston 47, and consequently, steam at boiler pressure is also in chamber 50.
If, now, in case of accident or other en'iergency, armature 42 is released from its engagement with the ends 41 of the settinglever 32, the spring 31 causes an instant and automatic unseating of the exhaust-valve 28, so that boiler pressure in chamber 46a is instantly reduced, and the throttle-valve 1 automatically seated to shut off the engine.
Then desired, the angular setting-lever 37 is moved to bring itsends 41 into locking engagement with armature 42, at which time the exhaust-valve is firmly seated.
The purpose of spindle 13 isto firmly seat the throttle-valve whenever it is necessary to close down the engine-stop for the purpose of repair or otherwise. The spindle 13 has no function in the active operation of the engine-stop, and may be entirely dispensed wit-h if desired.
By combining the throttle valve 1 with the two pistons 46 and 47 and mounting them into the single casing as described, I am enabled to produce a wholly novel, compact and economical automatic engine-stop.
VVhatI claim is 1. An automatic engine-stop comprising a casing having a steam-inlet port and a steam-outlet port and two piston cylinders; a partition within the casing and having a steamway connecting the two chambers at its opposite sides; an end-plate having an exhaust steamway; an automatic exhaustvalve controlling said exhaust steamway; means for effecting the automatic unseating of the exhaust-valve; and a double piston throttle-valve,.the throttle-valvebeing intermediate its pistons, one of which slides in a piston cylinder adjacent to the exhaust steamway and the other of which works in a piston cylinder on the other side of the partition; the stem of the double piston throttle-valve having a steamway into a chamber in one of said pistons whereby the double piston throttle-valve is substantially balanced and a setting lever.
2. An automatic engine-stop comprising a casing having a. steam-inlet port and a steam-outlet port and two piston cylinders; a partition within the casing, and having a steamway connecting the two chambers at its opposite sides; an end-plate having an exhaust stearnway; an automatic exhaustvalve controlling said exhaust steamway; means for eii'ecting the automatic unseating of the exhaust-valve; and a double piston throttle-valve, the throttle-valve being intermediate its pistons, one of which slides in a piston cylinder adjacent to the exhaust steainway and the other of which works in a piston cylinder on the other side of the partition; the stem of the double piston throttle-valve having a steamway into a chamber in one of said pistons whereby the double piston throttle-valve is substantially balanced; and a spring interposed between the other piston and the end-plate having said exhaust steamway and a setting lever.
3. The combination, in an automatic engine-stop, of a casing having a steam-inlet, a V steam-outlet and an interior partition formed with a steamway of a throttle-valve provided with a chainbered piston, and a steainway through said valve into the chamber of said piston; a threaded spindle having a valvular end adapted to close said steamway and to engage and seat lthe throttle-valve; a piston ring for said piston, the piston ring being integral with an end-plate of the casing; said end plate, abracket thereon, a stuing-box for said spindle, and means for clamping the stuiing-box to said end plate, the piston-ring being threaded and screwing into the open end of the casing adjacent to said chambered piston.
4:. The combination of an end-plate of the valve, said plate having a threaded projection on one side and a bracket on the other side; of a stuiiing box; means for attaching it to the end-plate; and a threaded spindle passing through the stuffing-box and said end-plate.
In testimony whereof I have aixed my signature in presence of two witnesses.
NATHANIEL CHASE LOCKE.
Vitnesses:
ALBERT W. VITTY, A. P. SWAsnY.
US38728707A 1907-08-06 1907-08-06 Automatic engine-stop. Expired - Lifetime US956380A (en)

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