US519943A - Quick-speed steam-engine - Google Patents

Quick-speed steam-engine Download PDF

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US519943A
US519943A US519943DA US519943A US 519943 A US519943 A US 519943A US 519943D A US519943D A US 519943DA US 519943 A US519943 A US 519943A
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01BMACHINES OR ENGINES, IN GENERAL OR OF POSITIVE-DISPLACEMENT TYPE, e.g. STEAM ENGINES
    • F01B9/00Reciprocating-piston machines or engines characterised by connections between pistons and main shafts and not specific to preceding groups
    • F01B9/02Reciprocating-piston machines or engines characterised by connections between pistons and main shafts and not specific to preceding groups with crankshaft
    • 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
    • F15B15/00Fluid-actuated devices for displacing a member from one position to another; Gearing associated therewith
    • F15B15/02Mechanical layout characterised by the means for converting the movement of the fluid-actuated element into movement of the finally-operated member
    • F15B15/06Mechanical layout characterised by the means for converting the movement of the fluid-actuated element into movement of the finally-operated member for mechanically converting rectilinear movement into non- rectilinear movement
    • F15B15/065Mechanical layout characterised by the means for converting the movement of the fluid-actuated element into movement of the finally-operated member for mechanically converting rectilinear movement into non- rectilinear movement the motor being of the rack-and-pinion type
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18176Crank, pitman, lever, and slide

Definitions

  • My invention relates to improvements in quick speed steam-engines of the high pressure type; and has for its object, to produce a novel, simple and efficient device of the type indicated, which will be adapted to develop a maximum degree of power with an economi cal expenditure of steam.
  • Figure l is a partly sectional plan view of the improved engine, on the line 1-1 in Fig.
  • Fig. 2 is a longitudinal sectional view on the line 2-2 in Fig. 1.
  • Fig. 3 is a detached side view of a cut-off Valve governor, that is preferably used in conjunction with the improvernent.
  • Fig. 4 is a transverse sectional view, on the line 4-4 in Fig. 2; and
  • Fig. 5 is a detached side view of the cut-oif valve, which is a part of the improvement.
  • the improved high pressure steam engine is ofthe horizontal kind, and is provided with an elongated bed plate A, of T-form, the
  • the bed-plateA is a box-like structure, of a suitable area and height to suit the dimensions of other parts supported thereon, and aiford room for their proper lo cation and effective operation.
  • two steam cylinders B, B' are provided, which are forwardly located on the bed-plate A, and thereto secured, one cylinder B, being placed upon the other, so that the axes of their bores will lie in the same vertical plane, and occupy parallel horizontal planes, as shown in Fig. 2.
  • the cylinders are of equal diameter, and have such an equal propor tionate length as willpermit a proper travel of their pistons.
  • the head-plate B2 is vertically channeled on its outer face at the transverse center, from a point at a properdistancefrom the lower end of the same, which channel b, is rendered flat and true on its bottom surface, and has parallel sides, its depth being sufficient to adapt it to receive a iiat thin throttle valve G, that will be described in its proper order.
  • a plate containing the main valve seat B3 is affixed by any preferred means, the main valve C," for steam that enters each cylinder being fitted to slide on this seat within the steam chest D, that is rectangular in form, of proper dimensions to permit a correct movement of the main valve, and is formed in one piece with the valve seat B3 and iianges.
  • Thelid D', of the chest D, ⁇ has a downwardly and rearwardly sloping projection produced on its inner face, against which the wedgeshaped presser block C', is caused to impinge,
  • the main shaft E Upon the rear of the bed-plate A, the main shaft E, is supported to revolve byits engagement with the pedestal boxes E', that are saddled upon webbed portions of the bed-plate, as indicated in Figs. l and 2, and on one end portion of the shaft an eccentric F, of ordinary form is mounted and secured,its straps having an adjustable connection with the rod F', that extends forwardly to have its front end pivotally joined to the upper end of the upright rock arm F2, which is secured on the transversely extended roclc shaft F3, that is journaled on the bed-plate below the cylinders.
  • another rock arm F4 is aixed on it, that projects forwardly at a right angle to the arm F2, and has a linked connection f formed between its forward end and the rodfof the main valve C.
  • the valve seat B3 and head-.plate B2 are oppositely slotted at two points near each end, thereby providing two live steam ports g. that in pairs intersect the bore ot' each cylinder B, B, at points equallyremoved from its longitudinal axis, each live steam port being bisected by a central bar, as shown in Fig. 4;.
  • two similar exhaust ports g are formed, that extend from near the side walls of the cylinders, through the head-plate B2-and valve seat B3, and are preferably inclined toward the common exhaust porta, whereit extends through theV head-plate and valve seat, as ⁇ shown in Fig. 2.
  • the main valve C To adapt the main valve C, to pass live steam into. the cylinders B, B', it has transverse ducts g2, formed in it at a suitable distance from its ends, and from each of said lateral steam passages in the valve, a transverse slotk or extension is produced in the vbodyof the valve that cuts through the valve face ⁇ at ay point between the paired inlet ports gffOf each cylinder.
  • an exhaust cavity g3 is formed in it of such dimensions as will permit it to cover or in- 4 close the end of one of the exhaust ports g and the common exhaust passage a, the latter being transversely prolonged asshown atY a in Fig. 2, so that. when the main valveV is moved into a proper position, the cavity g3 will place oneof the ports g andthe passage a in ⁇ communication, and exhaust steam that is in ⁇ the cylinder thus tapped, will have free exit afforded.
  • the plate-like throttle valve G occupies the. channelb that is producedin the head-plate B2 andhas live steam Lports .cut through it, coinciding with the similar ports in the head-plate and main valve seat or plate betweenwhich the throttle valve lits steam tight but free totravel endwise, the center of the valve-G, being apertured to affordone large exhaust port g4.
  • a flat stem h is projected from the upper end of the throttle valve, and at its upper terminal is detachably connected to a governor Lthat is mounted upon the bracket frame l', which is saddled upon the top of the cylinder B, at a point which will permit the vertical valve stem -h to be secured tothe lower end of the vertical spindle h of the governor, as indicated in Figs. 2 and 3.
  • Thel governor 1 preferably used in connection with the variable pressure regulator valve, is of novel construction, and as it forms thesubject lmatter of a separate application, it isnot deemed necessary to give a detailed description-here.
  • the governor consists of two flat disks centrally ⁇ pivoted between laterally projected arms that are centrally mounted upon the bracket frame I', each disk having a loose connection established between its edge that is nearest tc the uprightspindle h', whereby the rocking movement of the disks on their pivot centers will longitudinally move the spindle h in unison with the degree of oscillation given to the disks.
  • Each governor disk is furnished with an adjustable weight that is arc-shaped, and is marginally located thereon, but has an arm extended from its inner edge to have a loose engagement with the pivot of the disk whereonY the weight is placed. So that the rotation of the shaft h', by the bevel gearing shown in Fig. 3, and a journaled shaft t', which supports one bevel gear wheel, will cause the valve G to. be ⁇ moved when the speed of the engine variesfrom the normal rate; motion from the main shaft E, being transmitted to the governor by a belt (not shown) that connects the pulley i, with a pulley m, on the main shaft.
  • the rear ends of the. cylinders are closedby the swinging doors J, that are provided to exclude dirt from the bores of-the cylinders at their practically openA rear ends, the ange n, that is formed on the exterior of thelatter, affording means for a stable connection of the cylinders to the bed-plate which is upwardly extended as housing frames A', on each side of the cylinders, the doors J being hinged upon said frames asindicated in Figs. land 2.
  • the similar piston heads L are of. the bucket type, each piston head being jointed at its center to one end-of a connecting rod M, which rods have a like formation and are journaled uponthe vibratory frame N.
  • the frame N comprises two similar beams, that are proportioned in length to suit the dimensions of other parts of the engine, and at a correct distance from their upper ends said beams are secured upon a transverse shaft N', in parallel planes and properly spaced apart to admit theA adjacent ends of the rods M between them, for aloose connection with the transverse journal pins o, that are secured in perforations of thebeams at an equal distance from the axis of the shaft N.
  • the side beams of the vibratory frame N are extended below the lower journal pins o, suiciently to permit another journal piu p, to be secured in transversely aligned perforations produced in the beams, at a point so removed from the center of vibratory motion in .the frame N, that the rocking traverse of the pin p will be equal to double the stroke of the pistons in the twin engine cylinders, as represented by the diagram of motion indicated by dotted lines in Fig. 2.
  • the main shaft E is double-cranked at its longitudinal center, which cranks E2 are joined by ajournal pin r. that receives one end of the pitman O, the forward end of the pitman being secured in the vusual manner upon the journal pin p.
  • Each of the piston heads L as shown in section in Fig. 2, consists of a cylindrical spider that is transversely slotted to admit the end of one of the connecting rods IWI, for a journaled engagement with a wrist pin s, that is inserted as shown in the figure mentioned.
  • the usual elastic packing rings u are provided, which are retained in peripheral rabbets formed for their reception on the spider bythe annular follower plates u', that are affixed upon the -ends of the spider by bolts or other means.
  • a cylindrical chamber is forwardly formed in the spider of the piston head for the introduction of a neatly fitted cushion block fu, that is cylindrical externally considered, and is cupped on its inner end to form space for an elliptical spring n', which is secured to the spider and block, its expansive force serving to maintain the cushion block protected to align its outer face with the outer surface of the follower ring on the front end of the spider.
  • the cushion block is packed on its periphery by a joint ringw, that is held by its resilience in a peripheral groove formed fort in the cushion block, its location being near the forward end of the block.
  • the main valve C is so adjusted, that it will alternately admit steam into one cylinder, and connect the exhaust port of the other cylinder with the common exhaust passage ct, at', so that the pistons will be successively acted upon by steam that enters the steam chest D, through a ⁇ steam supply pipe D2, shown broken in Fig. l, but vthat in service is extended to a steam generator (not shown).
  • valve G When the steam engine is to be started, the valve G, is adjusted so as to align its live steam ports with those in the head plate and main valve seat, which will avoid a restriction of steam flow through the ports, the large' exhaust passage g3 ⁇ in the valve permitting a free flow of the exhaust steam.
  • An admission of high pressure steam within the steam chest D will produce an alternate reciprocation of the piston heads L, and a vibration of the frame N, that through the rod O, will rap idly rotate the crank shaft E, which shaft may be extended beyond the bed plate to receive a balance wheel and driving pulley of the usual form.
  • the governor I After a maximum speed has been attained in the working parts of the engine, the governor I, is thrown into service, which will so control the valve G that slight fluctuations in speed, due to alterations in load strain, will be instantly corrected, and a uniform rate of speed be maintained in the main shaft E, and machinery connected therewith which the engine is to drive.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
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Description

L .TJ e e h S w e e h S 3 D U .A S S I 0 V E D u... JW d. d o M 0 m.
QUICK SPEED STEAM ENGINE.
No. 519,943. Patented May 15, 1894.
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INVENTOH E www@ ATTORNEYS.
(No Model.) 3 Sheets-Sheet 2. J. P. DEVOISSAUD. QUICK SPEED STEAM ENGINE.
Patented May 15, 1894.
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Amma coMPnnv 3 Sheets-Sheet 3.
(No Model.)
J P DEVOISSAUD QUICK SPEED STEAM ENGINE.
No. 519,943. Patented May 15,1894.
ATTORNEYS.
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UNITED STATES PATENT OFFICE.
JOHN P. DEVOISSAUD, OF SHERMAN, TEXAS.
QUICK-SPEED STEAM-ENGINE.
SPECIFICATION forming part of Letters Patent No. 519,943, dated May 15, 1894.
Application filed September 16,1893. Serial No. 485.648. (No model.)
To @ZZ whom t may concern:
Be it known that I, JOHN P. DEvorssAUD,
` of Sherman, in the county of Grayson and State of Texas, have invented a new and use ful Improved QuickSpeed Steam-Engine, of which the following is a full, clear, and exact description.
My invention relates to improvements in quick speed steam-engines of the high pressure type; and has for its object, to produce a novel, simple and efficient device of the type indicated, which will be adapted to develop a maximum degree of power with an economi cal expenditure of steam.
To this end, my invention consists in the construction and combination of parts, as is hereinafter described and claimed.
Reference is to be had to the accompanying drawings, forming a part of this specification, in which similar letters of reference indicate corresponding parts in all the figures.
Figure l is a partly sectional plan view of the improved engine, on the line 1-1 in Fig.
2. Fig. 2 is a longitudinal sectional view on the line 2-2 in Fig. 1. Fig. 3 is a detached side view of a cut-off Valve governor, that is preferably used in conjunction with the improvernent. Fig. 4 is a transverse sectional view, on the line 4-4 in Fig. 2; and Fig. 5 is a detached side view of the cut-oif valve, which is a part of the improvement.
The improved high pressure steam engine is ofthe horizontal kind, and is provided with an elongated bed plate A, of T-form, the
transverse member of which is at the rear end of the engine. The bed-plateAis a box-like structure, of a suitable area and height to suit the dimensions of other parts supported thereon, and aiford room for their proper lo cation and effective operation.
To carry into effect the novel and advantageous features pertaining to the improvement., two steam cylinders B, B', are provided, which are forwardly located on the bed-plate A, and thereto secured, one cylinder B, being placed upon the other, so that the axes of their bores will lie in the same vertical plane, and occupy parallel horizontal planes, as shown in Fig. 2. The cylinders are of equal diameter, and have such an equal propor tionate length as willpermit a proper travel of their pistons. Preferably the cylinders B,
B', are integrally formed;I and have an exhaust passage o., that is common to both, produced in the wall that divides them. The vertically aligned front ends of the cylinders have suitable circumferential flanges formed on them to receive bolts that serve to secure the oblong head-plate B2, upon said ends, steamtight. The head-plate B2, is vertically channeled on its outer face at the transverse center, from a point at a properdistancefrom the lower end of the same, which channel b, is rendered flat and true on its bottom surface, and has parallel sides, its depth being sufficient to adapt it to receive a iiat thin throttle valve G, that will be described in its proper order. Upon the exterior surface of the head-plate B2, a plate containing the main valve seat B3, is affixed by any preferred means, the main valve C," for steam that enters each cylinder being fitted to slide on this seat within the steam chest D, that is rectangular in form, of proper dimensions to permit a correct movement of the main valve, and is formed in one piece with the valve seat B3 and iianges.
Thelid D', of the chest D,`has a downwardly and rearwardly sloping projection produced on its inner face, against which the wedgeshaped presser block C', is caused to impinge,
which block is provided with a longitudinally extending transversely central tongue d, on its side that is nearest to the main valve, said tongue having a loose engagement with a mating groove formed in the back of the valve G, the adjustable attachment of the block C',
upon the lid of the steam chest being eected by the bolts e, whereby the valve C is maintained at all times in loose contact with the seat B3.
Upon the rear of the bed-plate A, the main shaft E, is supported to revolve byits engagement with the pedestal boxes E', that are saddled upon webbed portions of the bed-plate, as indicated in Figs. l and 2, and on one end portion of the shaft an eccentric F, of ordinary form is mounted and secured,its straps having an adjustable connection with the rod F', that extends forwardly to have its front end pivotally joined to the upper end of the upright rock arm F2, which is secured on the transversely extended roclc shaft F3, that is journaled on the bed-plate below the cylinders. Near the longitudinal center of the rock shaft F3, another rock arm F4 is aixed on it, that projects forwardly at a right angle to the arm F2, and has a linked connection f formed between its forward end and the rodfof the main valve C.
The valve seat B3 and head-.plate B2, are oppositely slotted at two points near each end, thereby providing two live steam ports g. that in pairs intersect the bore ot' each cylinder B, B, at points equallyremoved from its longitudinal axis, each live steam port being bisected by a central bar, as shown in Fig. 4;. At two points equally distantV from the nearest live steam ports, two similar exhaust ports g are formed, that extend from near the side walls of the cylinders, through the head-plate B2-and valve seat B3, and are preferably inclined toward the common exhaust porta, whereit extends through theV head-plate and valve seat, as` shown in Fig. 2.
To adapt the main valve C, to pass live steam into. the cylinders B, B', it has transverse ducts g2, formed in it at a suitable distance from its ends, and from each of said lateral steam passages in the valve, a transverse slotk or extension is produced in the vbodyof the valve that cuts through the valve face` at ay point between the paired inlet ports gffOf each cylinder. Y
At the longitudinal center of themain valve C, an exhaust cavity g3, is formed in it of such dimensions as will permit it to cover or in- 4 close the end of one of the exhaust ports g and the common exhaust passage a, the latter being transversely prolonged asshown atY a in Fig. 2, so that. when the main valveV is moved into a proper position, the cavity g3 will place oneof the ports g andthe passage a in` communication, and exhaust steam that is in` the cylinder thus tapped, will have free exit afforded.
The plate-like throttle valve G before mentioned., occupies the. channelb that is producedin the head-plate B2 andhas live steam Lports .cut through it, coinciding with the similar ports in the head-plate and main valve seat or plate betweenwhich the throttle valve lits steam tight but free totravel endwise, the center of the valve-G, being apertured to affordone large exhaust port g4. A flat stem h, is projected from the upper end of the throttle valve, and at its upper terminal is detachably connected to a governor Lthat is mounted upon the bracket frame l', which is saddled upon the top of the cylinder B, at a point which will permit the vertical valve stem -h to be secured tothe lower end of the vertical spindle h of the governor, as indicated in Figs. 2 and 3.
Thel governor 1 preferably used in connection with the variable pressure regulator valve, is of novel construction, and as it forms thesubject lmatter of a separate application, it isnot deemed necessary to give a detailed description-here. Brieiy considered, the governor consists of two flat disks centrally `pivoted between laterally projected arms that are centrally mounted upon the bracket frame I', each disk having a loose connection established between its edge that is nearest tc the uprightspindle h', whereby the rocking movement of the disks on their pivot centers will longitudinally move the spindle h in unison with the degree of oscillation given to the disks. Each governor disk is furnished with an adjustable weight that is arc-shaped, and is marginally located thereon, but has an arm extended from its inner edge to have a loose engagement with the pivot of the disk whereonY the weight is placed. So that the rotation of the shaft h', by the bevel gearing shown in Fig. 3, and a journaled shaft t', which supports one bevel gear wheel, will cause the valve G to. be` moved when the speed of the engine variesfrom the normal rate; motion from the main shaft E, being transmitted to the governor by a belt (not shown) that connects the pulley i, with a pulley m, on the main shaft.
The rear ends of the. cylinders are closedby the swinging doors J, that are provided to exclude dirt from the bores of-the cylinders at their practically openA rear ends, the ange n, that is formed on the exterior of thelatter, affording means for a stable connection of the cylinders to the bed-plate which is upwardly extended as housing frames A', on each side of the cylinders, the doors J being hinged upon said frames asindicated in Figs. land 2.
The similar piston heads L, are of. the bucket type, each piston head being jointed at its center to one end-of a connecting rod M, which rods have a like formation and are journaled uponthe vibratory frame N. The frame N, comprises two similar beams, that are proportioned in length to suit the dimensions of other parts of the engine, and at a correct distance from their upper ends said beams are secured upon a transverse shaft N', in parallel planes and properly spaced apart to admit theA adjacent ends of the rods M between them, for aloose connection with the transverse journal pins o, that are secured in perforations of thebeams at an equal distance from the axis of the shaft N. The side beams of the vibratory frame N, are extended below the lower journal pins o, suiciently to permit another journal piu p, to be secured in transversely aligned perforations produced in the beams, at a point so removed from the center of vibratory motion in .the frame N, that the rocking traverse of the pin p will be equal to double the stroke of the pistons in the twin engine cylinders, as represented by the diagram of motion indicated by dotted lines in Fig. 2.
The main shaft E, is double-cranked at its longitudinal center, which cranks E2 are joined by ajournal pin r. that receives one end of the pitman O, the forward end of the pitman being secured in the vusual manner upon the journal pin p. For efficient action,
the length of the cranks E2 from center to `center, should exactly equal the distance IOO IIO
traversed by each piston in making a stroke i of the engine, that the distance between the center of the shaft N', and pins o on the frame N, should exceed the throw of the double crank E2, which will afford leverage that will conduce to the effective operation of the device as an entirety.
To permit a free movementof the connecting rods M, vertically elongated apertures are formed in the folding doors J where they join, so that the rods may freely travel and `vertically vibrate a sufficient degree, without frictionally impinging the doors.
Each of the piston heads L, as shown in section in Fig. 2, consists of a cylindrical spider that is transversely slotted to admit the end of one of the connecting rods IWI, for a journaled engagement with a wrist pin s, that is inserted as shown in the figure mentioned.
The usual elastic packing rings u, are provided, which are retained in peripheral rabbets formed for their reception on the spider bythe annular follower plates u', that are affixed upon the -ends of the spider by bolts or other means.
A cylindrical chamber is forwardly formed in the spider of the piston head for the introduction of a neatly fitted cushion block fu, that is cylindrical externally considered, and is cupped on its inner end to form space for an elliptical spring n', which is secured to the spider and block, its expansive force serving to maintain the cushion block protected to align its outer face with the outer surface of the follower ring on the front end of the spider. The cushion block is packed on its periphery by a joint ringw, that is held by its resilience in a peripheral groove formed fort in the cushion block, its location being near the forward end of the block.
There are series of water escape` passages fg, produced in the spiders of the piston heads L, which extend from the front to the rear ends of the same, which passages are nor mally closed by the rings tu; and it will be seen, that if condensed water accumulates in any considerable quantity within either cylinder, the impact of the water upon the cushion blocks will cause the latter to yield and open the forward terminals of the passages y, for a rearward transfer of the water, which will escape from the rear ends of the cylinders B, B.
The main valve C is so adjusted, that it will alternately admit steam into one cylinder, and connect the exhaust port of the other cylinder with the common exhaust passage ct, at', so that the pistons will be successively acted upon by steam that enters the steam chest D, through a `steam supply pipe D2, shown broken in Fig. l, but vthat in service is extended to a steam generator (not shown).
When the steam engine is to be started, the valve G, is adjusted so as to align its live steam ports with those in the head plate and main valve seat, which will avoid a restriction of steam flow through the ports, the large' exhaust passage g3 `in the valve permitting a free flow of the exhaust steam. An admission of high pressure steam within the steam chest D, will produce an alternate reciprocation of the piston heads L, and a vibration of the frame N, that through the rod O, will rap idly rotate the crank shaft E, which shaft may be extended beyond the bed plate to receive a balance wheel and driving pulley of the usual form. The maintenance of the valve in a fixed position to align its ports with the otherlive steam ports as stated, is eected by the depression of an arm h2, that is thus caused to press down the spindle 7L', whichin turn moves the throttle valve into proper position and so retains it until released, the act nation and retention of the arm being produced by the vibration of a cam lever ha, that is pivoted on the governor frame and is arranged to engage its toe with the near end of the pivoted arm h2, as represented in Fig. 3.
After a maximum speed has been attained in the working parts of the engine, the governor I, is thrown into service, which will so control the valve G that slight fluctuations in speed, due to alterations in load strain, will be instantly corrected, and a uniform rate of speed be maintained in the main shaft E, and machinery connected therewith which the engine is to drive.
It will be seen that by the peculiar construction of the working parts of the improved engine and their relative arrangement, a high degree of efficiency is secured with a minimum expenditure of motive force, and as the traverse of the piston heads is short, as compared to their area, a high speed is attainable with low frictional resistance, the transfer of mo tion from the pistons through the vibratory frame N to the crank shaft E, conserving the effective force of steam pressure, so that the percentage of duty performed is high, and compares favorably with that secured in other engines of compound type, that are more complex in construction and expensive to produce.
Having thus fully described my invention, I claim as new and desire to secure byLetters Patent* l. In a steam engine, the combination with two cylinders supported one above the other, of asingle head-plate for the cylinders, a main steam valve, means to move said valve, a throttle valve located in a channel between the head-plate and the seat of the main valve, and a governor device driven from the engine shaft and directly actuating the throttle valve, substantially as described.
2. In a steam engine, the combination with` IOO pivoted to the` rods at equal distances from its center of motion, the parallel beams of said frame extending below thev lower cylinder, and connected to a double crank shaft of the engineby pins or journal pins, and a connecting rod, substantially as described.
3. In a steam engine, the combination with two steam cylinders secured one above the other on a bed plate, a rpiston head in each cylinder, and a connect-ing rod for each piston head, of an uprightvibratoryframeon the bed plate, pivoted to thek rods at equal distances from its center of motion, the parallelbcams of said frame extendingbelow .tory frame and centers of pins connecting the piston head rods to said frame, and a main connecting rod between the double cranks `and a journal pin on the extending lower end of the vibratory frame, substantiallyv as described.
l JOHN P. DEVoIssAUD.
Witnesses:
J. WRITING, Jr., JOSEPH H. DUMoULrN.
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US9797340B2 (en) 2007-04-23 2017-10-24 New Power Concepts Llc Stirling cycle machine
US12078123B2 (en) 2007-04-23 2024-09-03 Deka Products Limited Partnership Stirling cycle machine
US20110011078A1 (en) * 2009-07-01 2011-01-20 New Power Concepts Llc Stirling cycle machine
US9797341B2 (en) 2009-07-01 2017-10-24 New Power Concepts Llc Linear cross-head bearing for stirling engine
US9823024B2 (en) * 2009-07-01 2017-11-21 New Power Concepts Llc Stirling cycle machine
US9822730B2 (en) 2009-07-01 2017-11-21 New Power Concepts, Llc Floating rod seal for a stirling cycle machine
US9828940B2 (en) 2009-07-01 2017-11-28 New Power Concepts Llc Stirling cycle machine

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