US1156702A - Engine for utilizing powdered fuel. - Google Patents

Engine for utilizing powdered fuel. Download PDF

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US1156702A
US1156702A US84643614A US1914846436A US1156702A US 1156702 A US1156702 A US 1156702A US 84643614 A US84643614 A US 84643614A US 1914846436 A US1914846436 A US 1914846436A US 1156702 A US1156702 A US 1156702A
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cylinder
sleeve
engine
cylinder head
fuel
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US84643614A
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William G Miner
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B45/00Engines characterised by operating on non-liquid fuels other than gas; Plants including such engines
    • F02B45/02Engines characterised by operating on non-liquid fuels other than gas; Plants including such engines operating on powdered fuel, e.g. powdered coal
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B75/00Other engines
    • F02B75/02Engines characterised by their cycles, e.g. six-stroke
    • F02B2075/022Engines characterised by their cycles, e.g. six-stroke having less than six strokes per cycle
    • F02B2075/025Engines characterised by their cycles, e.g. six-stroke having less than six strokes per cycle two

Definitions

  • Patented oet. 12,1915 Patented oet. 12,1915.
  • aliengine of the inverted vertical type as an embodiment of my invention.
  • This engine consists of a frame 1, in which a cylinder 2, is mounted. At the upper end of the frame a Hy wheel 3 is ⁇ journaled in bearings 4.
  • the fly wheel is adapted to be rotated by means of a reciprocating piston 5, connected to a rod 6 and a crank 7, as in ordinary reciprocating engine practice.
  • an inverted cup shaped member 8 Secured to the head of piston 5 is an inverted cup shaped member 8, forming an extension of the' piston 5 and which in effect forms a sleeve reciprocating within the cylinder.
  • the cylinder is secured at its bottom end to a cylinder head casting 9, which is formed with a substantially conical cup portion 10 having piston rings 11, 12 and 13 bearing against the inner surface of the sleeve 8.
  • This cone shaped cylinder head is provided with an inlet valve 14 adapted to open and close an 'inlet passage 15, and an exhaust valve 16 adapted to close an exhaust passage 17.
  • the arrangement and form of the piston rings is such that the ash resulting from the combustion of the powdered fuel, will be removed from the inner walls of the sleeve 8 as it. reciprocates.
  • Ring 13 is particularly intended to perform this function of removing the resultant ash since it is formed with inwardly and downwardly projecting walls, the upper edge of which is adapted to cut away the ash from the walls of the sleeve and to direct it toward the center ofthe cylengine during its operation.
  • ring 12- is located beneath ring 13 to aid the" I latter in cleaning the walls of the sleeve at the point 18 where ring 13 is of necessity cut in order to provide for .its removal and to enable it to expand against the sleeve walls.
  • the cut 19 in ring 12 is located in staggered relation with cut 18 in order that the-ash may not sift between the rings into the spaces adjacent to and below ring 11.
  • the purpose of providing the reciprocating sleeve 8 between vthe cylinder walls andthe rings is to prevent the abrasive ash from detrimentally affecting the inner surface of the cylinder ⁇ and the outer surfaces of the reciprocating sleeve and piston.
  • Any-suitable valve operating mechanism may be provided, 'as for example the exhaust valve operating mechanism shown in the drawing.
  • This mechanism consists of a pivot lever 20 connected at one of its ends to the exhaust valve stem and at its other end to an upwardly extending rod 21 which is- In order to prevent the heat of the engine 4 becoming too great some cooling means such as the water jacket 26 is provided.
  • This receptacle is shown mounted upon a stand pipe 28 which is connected at its lower end to a pipe 29 having an air valve 30 secured at one end and connected at its other end to the head casting of the engine.
  • a valve 31 Located in the stand pipe is a valve 31 which is adapted to control the amount of fuel delivered release the exploded charge of fuel.
  • piston, carrying sleeve'8, now moves down- I shaped lever 26 is also moved to cause the adjustment to plate 33 ⁇ and 32 is permitted in order that the amount of opening between apertures 37 and 38,' when the plates 32 and 33 are moved, may be regulated to permit the desired amount of fuel for each charge, to pass therethrough.
  • the engine may be given its initial motion in any suitable manner, and upon the movement of the rod 21 downwardly, the correct quantity of fuel is permitted to fall through pipeV 28 because of the opening of valve 31.
  • exhaust valve 16 closes and valve 14 is opened.
  • rllhe piston now moves upwardly drawing in air through valve 30 and past the lower end of pipe 28 just in time to'catch the descending fuel powder and to cause it to mix with the air insuch a manner that it is held suspended therein in a cloud-like condition.
  • ⁇ '.lhe inlet valve now closes and the piston and sleeve move downwardly to compress the charge in the chamber.
  • 'llhe charge is now exploded by means of a spark from the spark plug Ll1 and the force of the explosion drives the piston upwardly.
  • cam 24 causes roller 23 on the end of lever 22, to rise, thereby lifting exhaust valve 16T lo wardly while the exhaust valve is being v held open and the ash resulting from the combustion of the powdered ⁇ fuel, falls into the conical cylinder head and assesfout through the exhaust passage 1 ln its downward movement sleeve 8 is thoroughly cleaned of any ash which may have accumun lated upon its walls, by means of the rings 12 and 13. llt will-be seen that the inner wall of the cylinder and the outer walls'of the piston and sleeve, are at all times kept free of any accumulation of carbon or ash, due to the combustion of the fuel.
  • a sleeve said sleeve being adapted to reciprocate in the space between the cylinder head and the cylinder, a packing ring rectangular in cross section mounted on the ,cylinder head and adapted to engage l the interior of the vsleeve, a second adapted to engage the interior of the sleeve mounmd on the inwardly inclined top edge l of the cup-shaped cylinder head and adapted to remove and divert the products of cornbus'tion from the inner walls of the sleeve to the interior of the cylinder ⁇ head, and a third ring located between the second mentioned ring and the first mentioned ring and adapted to engage the interior of the sleeve.
  • An internal combustion engine adapted to the use of powdered fuel comprising a cylinder, a cup-shaped cylinder head spacer. away from the cylinder and having an inwardly inclined top edge, a piston mounted in said cylinder-and provided with a sleeve,
  • said sleeve being adapted to reciprocate in the space between the cylinder head and the cylinder, a packing ring rectangular' ⁇ in cross section mounted on the cylinder head and adapted to engage the interior of the sleeve, a second ring adapted to engage the :interior of the sleeve mounted on the inwardly inclined top edge of the cup-shaped cylinder head, and adapted to remove and.

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  • Engineering & Computer Science (AREA)
  • Mining & Mineral Resources (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Combustion Methods Of Internal-Combustion Engines (AREA)

Description

w. G. MINER.
ENGINE FOR UTILIZING POWDERED FUEL.
APPLICATION FILED IUNE 22, 1944.
M w 2 1 o i w M 2 n Llw a D1 9 n o o t 7 u 0 9 L w 1? o MM/wif R m J 2 a ,4, H/H 00, f A@ Mx 4 12J@ L24 ,5 l\ o 3 L 7 Z vm W W f 0 91M NS /y z H O //f /f /7/7 H a a w l 5 am a@ 2 M 10i 1 @www l L an Wamy www WILLIAM G. MINER, 0F CINCINNATI, OHIO.
ENGINE FOR UTILIZING POWDERED FUEL.
Speciication of Letters Patent.
Patented oet. 12,1915.
Application led June 22, 1914., Serial No. 846,436.
To all whom t may concern:
Be it known that I, WILLIAM G. MINER, a citizen of the-United States of America, and resident of Cincinnati, countyof Hamilton,
and State of Ohio, have invented certain ling from the combustion of the fuel.
These and other objects are attained in the apparatus -described in the following specification and illustrated in the accompanying drawing.
In the drawing I have illustrated aliengine of the inverted vertical type, as an embodiment of my invention. This engine consists of a frame 1, in which a cylinder 2, is mounted. At the upper end of the frame a Hy wheel 3 is `journaled in bearings 4. The fly wheel is adapted to be rotated by means of a reciprocating piston 5, connected to a rod 6 and a crank 7, as in ordinary reciprocating engine practice. Secured to the head of piston 5 is an inverted cup shaped member 8, forming an extension of the' piston 5 and which in effect forms a sleeve reciprocating within the cylinder. The cylinder is secured at its bottom end toa cylinder head casting 9, which is formed with a substantially conical cup portion 10 having piston rings 11, 12 and 13 bearing against the inner surface of the sleeve 8. This cone shaped cylinder head is provided with an inlet valve 14 adapted to open and close an 'inlet passage 15, and an exhaust valve 16 adapted to close an exhaust passage 17.
The arrangement and form of the piston rings is such that the ash resulting from the combustion of the powdered fuel, will be removed from the inner walls of the sleeve 8 as it. reciprocates. Ring 13 is particularly intended to perform this function of removing the resultant ash since it is formed with inwardly and downwardly projecting walls, the upper edge of which is adapted to cut away the ash from the walls of the sleeve and to direct it toward the center ofthe cylengine during its operation.
inder head chamber, in position to be exhausted when the valve 16 is open. The
ring 12- is located beneath ring 13 to aid the" I latter in cleaning the walls of the sleeve at the point 18 where ring 13 is of necessity cut in order to provide for .its removal and to enable it to expand against the sleeve walls. The cut 19 in ring 12 is located in staggered relation with cut 18 in order that the-ash may not sift between the rings into the spaces adjacent to and below ring 11. The purpose of providing the reciprocating sleeve 8 between vthe cylinder walls andthe rings is to prevent the abrasive ash from detrimentally affecting the inner surface of the cylinder` and the outer surfaces of the reciprocating sleeve and piston.
Any-suitable valve operating mechanism may be provided, 'as for example the exhaust valve operating mechanism shown in the drawing. This mechanism consists of a pivot lever 20 connected at one of its ends to the exhaust valve stem and at its other end to an upwardly extending rod 21 which is- In order to prevent the heat of the engine 4 becoming too great some cooling means such as the water jacket 26 is provided.
I have shown in connection with the more or less diagrammatic view of my improved engine, a similar view of a powdered fuel receptacle 27, together with a valve device for controlling the delivery of fuel to the Y This receptacle is shown mounted upon a stand pipe 28 which is connected at its lower end to a pipe 29 having an air valve 30 secured at one end and connected at its other end to the head casting of the engine. Located in the stand pipe is a valve 31 which is adapted to control the amount of fuel delivered release the exploded charge of fuel.
piston, carrying sleeve'8, now moves down- I shaped lever 26 is also moved to cause the adjustment to plate 33` and 32 is permitted in order that the amount of opening between apertures 37 and 38,' when the plates 32 and 33 are moved, may be regulated to permit the desired amount of fuel for each charge, to pass therethrough. ln operation' the engine may be given its initial motion in any suitable manner, and upon the movement of the rod 21 downwardly, the correct quantity of fuel is permitted to fall through pipeV 28 because of the opening of valve 31. As the engine continues to rotate, exhaust valve 16 closes and valve 14 is opened. rllhe piston now moves upwardly drawing in air through valve 30 and past the lower end of pipe 28 just in time to'catch the descending fuel powder and to cause it to mix with the air insuch a manner that it is held suspended therein in a cloud-like condition. As the piston moves upwardly, 4this mixture of suspended dust and air, fills the combustion chamber 40 of the engine. `'.lhe inlet valve now closes and the piston and sleeve move downwardly to compress the charge in the chamber. 'llhe charge is now exploded by means of a spark from the spark plug Ll1 and the force of the explosion drives the piston upwardly. As'the engine shaft rotates, cam 24: causes roller 23 on the end of lever 22, to rise, thereby lifting exhaust valve 16T lo wardly while the exhaust valve is being v held open and the ash resulting from the combustion of the powdered `fuel, falls into the conical cylinder head and assesfout through the exhaust passage 1 ln its downward movement sleeve 8 is thoroughly cleaned of any ash which may have accumun lated upon its walls, by means of the rings 12 and 13. llt will-be seen that the inner wall of the cylinder and the outer walls'of the piston and sleeve, are at all times kept free of any accumulation of carbon or ash, due to the combustion of the fuel.
By so forming the rings 12 and 13 of the cylinder head, all possibility of destroying the usefulness of ring 11, is eliminated since it is manifestly impossible for the ash andv otherproducts of combustion to escape from the combustion chamber and into the spaces surrounding the cylinder head.' The compression in the combustion chamber is therefore rendered perfect at each lsucceeding cycle of the engine operation. By the useof powdered fuel such as coal dust, flour or other explosive powder, l have eliminated ideama an internal combustion engine. ln additionto this, the amount of energy involved in converting the solid fuel into a gas, is saved and utilized within the engine itself, thereby making this energy which would otherwise be lost in converting the fuel to a gas, do useful work by helping t propel the engine.
l-laving thus described my invention what l claim is:
1. lncor'nbination in an internal combustion engine, a cylinder, a cylinder head spaced away from said cylinder and provided with an inlet and an exhaust passage, a piston mounted within said cylinder and provided with a sleeve adapted to reciprocate within the space between the cylinder and the cylinder head, and means mounted on said cylinder head adapted to remove and divert the products of combustion from said sleeve, toward said exhaust passage..
2. ln an internal combustlon engme, the
combinationof a cylinder, a cup-shaped cyl- 1 ladaptedto engage the interior of the sleeve i mounted on the inwardly inclined top edge of the cup-shaped cylinder head and adapted to remove and divert the products of combustion from,r the inner walls of the sleeve to the interior of the cylinder head.
3.. ln combination in an internal combustion engine, a cylinder, a cup-shaped cylinder head spaced away from vsaid cylinder and having an inwardly inclined top edge, a
pistonmounted in said cylinder and pro- 1i vided with .a sleeve, said sleeve being adapted to reciprocate in the space between the cylinder head and the cylinder, a packing ring rectangular in cross section mounted on the ,cylinder head and adapted to engage l the interior of the vsleeve, a second adapted to engage the interior of the sleeve mounmd on the inwardly inclined top edge l of the cup-shaped cylinder head and adapted to remove and divert the products of cornbus'tion from the inner walls of the sleeve to the interior of the cylinder` head, and a third ring located between the second mentioned ring and the first mentioned ring and adapted to engage the interior of the sleeve. y
4l. An internal combustion engine adapted to the use of powdered fuel comprising a cylinder, a cup-shaped cylinder head spacer. away from the cylinder and having an inwardly inclined top edge, a piston mounted in said cylinder-and provided with a sleeve,
said sleeve being adapted to reciprocate in the space between the cylinder head and the cylinder, a packing ring rectangular'` in cross section mounted on the cylinder head and adapted to engage the interior of the sleeve, a second ring adapted to engage the :interior of the sleeve mounted on the inwardly inclined top edge of the cup-shaped cylinder head, and adapted to remove and.
divert the products of combustion from the inner walls of thesleeve to the interior of the cylinder head, and an exhaust valve 1ocated in the cylinder head adapted to permit the discharge of the products of combustion from the cylinder.
5. In combination in' an internal combustion engine adapted tothe use of powdered fuel, a cylinder, a cup-shaped cylinder head spaced away from the cylinder and having an inwardly inclined top edge, a piston mounted in the cylinder and provided with a sleeve, said sleeve being adapted to rel ciprocate in the space between the cylinder head and the cylinder, a packing ring rectan'- .subscribed gular in cross section mounted on the' cylinder head and adapted to engage the interior of the sle'eve, a second ring mounted on the inwardly inclined top edge lof the cupshaped cylinder head and adapted to remove and divert the products of combustion from the inner walls of the sleeve. to the interior of the cylinder head,'a third ring located between the irst and second mentioned-` rings in engagement with the interior wall of the sleeve and adapted to assist the second mentioned ring in removing and diverting` theV products of combustion'from said wall to the interior of the cylinder head, andan exhaust valve located in the cylinder head adapted to permit the discharge of the products of combustion.
In testimony whereof, I have hereunto my name this 20th day of June, 1914. i 4
WILLIAM G. MINER.
US84643614A 1914-06-22 1914-06-22 Engine for utilizing powdered fuel. Expired - Lifetime US1156702A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2420325A (en) * 1942-10-07 1947-05-13 Nettel Frederick Method and means for operating internal-combustion engines

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2420325A (en) * 1942-10-07 1947-05-13 Nettel Frederick Method and means for operating internal-combustion engines

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