US668250A - Explosive-engine. - Google Patents

Explosive-engine. Download PDF

Info

Publication number
US668250A
US668250A US74109199A US1899741091A US668250A US 668250 A US668250 A US 668250A US 74109199 A US74109199 A US 74109199A US 1899741091 A US1899741091 A US 1899741091A US 668250 A US668250 A US 668250A
Authority
US
United States
Prior art keywords
engine
piston
abutment
explosive
shaft
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US74109199A
Inventor
Stanislaus M Zurawski
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US74109199A priority Critical patent/US668250A/en
Application granted granted Critical
Publication of US668250A publication Critical patent/US668250A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B23/00Other engines characterised by special shape or construction of combustion chambers to improve operation
    • F02B23/08Other engines characterised by special shape or construction of combustion chambers to improve operation with positive ignition

Definitions

  • My invention relates to that class of explosive-engines or internal-combustion engines in which a piston or other abutment is exposed in an abutment-chamber or cylinder to the impulse of the suddenly-expanded fuel, usually gas or a mixture of combustible vapor with air ignited within the clearance space or combustion-chamber of the engine; and the primary object of my invention is to increase the area of the piston or abutment exposed to the expansive force of the explosion over engines having a piston-stroke of the same length without thereby necessarily increasing the volume of the charge, or, in other words,without increasing the clearancespace in which the charge is compressed, thus exposing to the explosion the maximum piston area, while avoiding the objection of having to force such area against the new charge at the return stroke in the act of compressing it or having to draw in a fresh charge equal to the volume of the entire piston-stroke.
  • the primary object of my invention is to provide a motor or- -engine with a plurality of abutments or pistons, all of which shall be directly subjected to and move under the same impulse or explosion, while but a portion of them shall act to either draw in the fresh charge or compress it, thereby multiplying the force of the explosion by the square of the piston-surfaces of the entire number of pistons, while the new charge will be only equal to the volume of the piston-stroke of less than the entire number of pistons.
  • Another object of my invention is to provide means for readily varying the capacity of the compression chamber or clearancespace, whereby an engine will be adapted for use interchangeably with fixed gas, such as coal or city-illuminating gas, or with the mixture of air and the vapor of hydrocarbon.
  • fixed gas such as coal or city-illuminating gas
  • Figure l is a longitudinal sectional view of an explosive-engine constructed according to my invention.
  • Fig. 2 is a similar View showing a different position of the pistons; and
  • Fig. 3 is a transverse section taken on the line 3 3, Fig. 1.
  • 1 represents the engine cylinder or abutment-chamber, of any suitable construction, which in the example shown is provided with an inlet-valve 2 and exhaust-valve 3, operated in any suitable manner to alternately open for respectively admitting the fuel and permitting the products of combustion to exhaust.
  • crank-shaft 4 represents the crank-shaft, which is connected by pitman 5 with a piston or abutment 6, located in the cylinder 1, and which is accurately fitted and reciprocates within another abutment 7, which in the example shown in the drawings is of annular form and arranged concentrically with the abutment or piston 6, so that the two conjointly fill the cross-section of the cylinder, leaving a space 8 at one end, which is the clearancespace or explosion-chamber.
  • the piston or abutment 6 reciprocates regularly at each revolution of the crank-shaft; but the abutment or piston 7 reciprocates only during each alternate revolution of the shaft and when at rest is held at the inner extremity of its stroke or at the end of its stroke nearest the clearance-space 8 by means of a stop or catch 9, of-any suitable construction, which is automatically withdrawn every other revolution of the shaft to permit the annular abutment 7 to make its advancing and return strokes.
  • Both pistons or abutments have their areas exposed to the explosive force or impulse taking place in the chamber 8, and both contribute to the power of the engine by exerting their force upon the crank-shaft 4, the annular piston 7 being connected with the crank-shaft 4 for this purpose in any suitable manner.
  • a simple method of effecting this connection consists in providing the inner piston 6 with a peripheral flange or lug 10, which projects outwardly into the path of the piston 7, so that when the piston 7 is driven by the impulse of the explosion it will communicate its pressure to the piston 6 and through the connecting-rod 5 to the crankshaft 4, and when the piston 6 starts on its return stroke it will return the piston 7 to its normal position, (shown in Fig.
  • the ordinary gas-engine or explosive-engine is not adapted for useinterchangeably with fixed gases, such as coal-gas or city-illuminating gas, and the mixture of air and hydrocarbon, such as gasolene, owing to the fact that with one form of fuel a higher degree of compression isrequired than with the other.
  • gases such as coal-gas or city-illuminating gas
  • hydrocarbon such as gasolene
  • shims or plates 11 may be secured by screws 12 or other devices to the piston 7.
  • the stop or catch 9 is shown as passing ing the capacity of the.compression-chamber
  • An explosive-engine having in combination two abutments both of which are exposed to and move under the same impulse and one of which is movable independently of the other and means for holding one of said abutments stationary while the other moves, substantially as set forth.
  • An explosive-engine having in combination a shaft, two abutments one of which is operatively connected with said shaft and makes two strokes during each revolution and the other of which makes two strokes during onerevolution and remains at rest during every other revolution, substantially as set forth.
  • An explosive-engine having incombination two abutments one of which isindependent of the other, means for holding one of dependent of both said crank-shaft and the other abutment, means for imparting the force of the explosion-stroke of said independent abutment to said crank-shaft and means for causing it to make its return stroke, substantially as set forth.
  • An explosive-engine having in combination two concentric abutments both exposed to the same impulse and one of which is movable independently of the other, a crank-shaft with which one of said abutments is operatively connected and means for imparting the explosive stroke of the other abutment to said crank-shaft, substantially as set forth.
  • An explosive-engine having in combination a shaft, two abutments one of which is operatively connected with said shaft and both exposed to the same impulse and one of I able independently of the other, a projection which is movable independently of the other, and a catch for holding the latter against movement during every alternate revolution, substantially as set forth.
  • An explosive-engine having in combination a shaft, an abutment operatively connected with said shaft, an annular abutment in which said first abutment is located and movable independently thereof, both of said ab utments being exposed to the same impulse, a projection on one of said abutments engaging the other to cause them to move together in one direction and to impart the explosive stroke of the annular abutment to the other abutment, a catch for holding said annular abutment while the other abutment moves and means for disengaging said catch at every other revolution of the engine, substantially as set forth.
  • An explosive-engine having in combination a shaft, two abutments one of which is operatively connected with said shaft and both subject to the same impulse and one reciprocating at every revolution of the engine and the other reciprocating during but every other revolution, and means for varying the position of the latter abutment with relation to the travel of the other one, substantially as set forth.
  • An explosive-engine having in combination a shaft, two abutments, one operatively connected with said shaft and both exposed to the same impulse and one of which is movon one of said abutnients with which the other abutment engages, a series of removable blocks or spacing-plates located between said projection and the other abutment for Vary ing the position of one abutment with relation to the stroke of the other, and means for holding one of said abutments at rest While the other moves, substantially as set forth.
  • An explosive-engine having in combination a sh aft, two abutments, one operatively connected with said shaft and both exposed to the same impulse and one of which is movable independently of the other, a catch or stop for holding one of said abutments while the other moves and a cam operatively connected with the moving parts of the engine and also with said catch or stop for Withdrawing the latter at every other revolution of the engine, substantially as set forth.
  • An explosive-engine having in combination a shaft, two abutment-s, one operatively connected With the shaft and both exposed to the same charge and one reciprocating at every revolution of the engine and the other reciprocating during but every other revolution and means for varying the length of travel of the latter abutment with relation to the length of travel of the other one, substantially as set forth.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Output Control And Ontrol Of Special Type Engine (AREA)

Description

Patented Feb. l9, IBOI.
EXPLOSIVE ENGINE.
(Application filed Dec. 21, 1899.)
no ll'odel.)
Fla
'mz mums PETERS ca. mmouma. WASHINGTON, q. a
Warren dramas A'rnarr @rrrcn.
STANISLAUS M. ZURAWSKI, OF CHICAGO, ILLINOIS.
EXPLOSIVE- -ENGINE.
SPECIFICATION forming part of Letters Patent No. 668,250, dated February 19, 1901.
Application filed December 21, 1899. Serial No. 741,091. (No model.)
To all whom it may concern.-
Be it known that I, STANISLAUS M. ZURAW- SKI, a citizen of the United States, residing at Chicago, in'the county of Cook and State of Illinois, have invented certain new and useful Improvements in Explosive-Engines, of which the following is a full, clear, and exact specification.
My invention relates to that class of explosive-engines or internal-combustion engines in which a piston or other abutment is exposed in an abutment-chamber or cylinder to the impulse of the suddenly-expanded fuel, usually gas or a mixture of combustible vapor with air ignited within the clearance space or combustion-chamber of the engine; and the primary object of my invention is to increase the area of the piston or abutment exposed to the expansive force of the explosion over engines having a piston-stroke of the same length without thereby necessarily increasing the volume of the charge, or, in other words,without increasing the clearancespace in which the charge is compressed, thus exposing to the explosion the maximum piston area, while avoiding the objection of having to force such area against the new charge at the return stroke in the act of compressing it or having to draw in a fresh charge equal to the volume of the entire piston-stroke.
More specifically stated, the primary object of my invention is to provide a motor or- -engine with a plurality of abutments or pistons, all of which shall be directly subjected to and move under the same impulse or explosion, while but a portion of them shall act to either draw in the fresh charge or compress it, thereby multiplying the force of the explosion by the square of the piston-surfaces of the entire number of pistons, while the new charge will be only equal to the volume of the piston-stroke of less than the entire number of pistons.
Another object of my invention is to provide means for readily varying the capacity of the compression chamber or clearancespace, whereby an engine will be adapted for use interchangeably with fixed gas, such as coal or city-illuminating gas, or with the mixture of air and the vapor of hydrocarbon.
In carrying out my invention I employ a plurality of u pistons or other abutments against which the pressure acts and all of which are subjected or exposed to the direct action of the explosion or other impulse within the abutment-ohamber and unite in driving the crankshaft or other moving part from which the power is taken, while the drawing in of the new charge or its compression after admission is effected by less than the entire number of such abutments or pistons, the remainder being held at rest and substantially or partiallyfilling the clearance-space or compression-chamber during the inspiration or the compression stroke. As acomprehensive and simple example of my invention I have shown but two of these abutments or pistons arranged for convenience and compactness one concentrically within the other and both located in the same cylinder or abutmentchamber of the engine, which in the particular example shown is of four-cycle type.
Referring now more particularly to the accompanying drawings, Figure l is a longitudinal sectional view of an explosive-engine constructed according to my invention. Fig. 2 is a similar View showing a different position of the pistons; and Fig. 3 is a transverse section taken on the line 3 3, Fig. 1.
1 represents the engine cylinder or abutment-chamber, of any suitable construction, which in the example shown is provided with an inlet-valve 2 and exhaust-valve 3, operated in any suitable manner to alternately open for respectively admitting the fuel and permitting the products of combustion to exhaust.
4 represents the crank-shaft, which is connected by pitman 5 with a piston or abutment 6, located in the cylinder 1, and which is accurately fitted and reciprocates within another abutment 7, which in the example shown in the drawings is of annular form and arranged concentrically with the abutment or piston 6, so that the two conjointly fill the cross-section of the cylinder, leaving a space 8 at one end, which is the clearancespace or explosion-chamber. The piston or abutment 6 reciprocates regularly at each revolution of the crank-shaft; but the abutment or piston 7 reciprocates only during each alternate revolution of the shaft and when at rest is held at the inner extremity of its stroke or at the end of its stroke nearest the clearance-space 8 by means of a stop or catch 9, of-any suitable construction, which is automatically withdrawn every other revolution of the shaft to permit the annular abutment 7 to make its advancing and return strokes. Both pistons or abutments have their areas exposed to the explosive force or impulse taking place in the chamber 8, and both contribute to the power of the engine by exerting their force upon the crank-shaft 4, the annular piston 7 being connected with the crank-shaft 4 for this purpose in any suitable manner. A simple method of effecting this connection consists in providing the inner piston 6 with a peripheral flange or lug 10, which projects outwardly into the path of the piston 7, so that when the piston 7 is driven by the impulse of the explosion it will communicate its pressure to the piston 6 and through the connecting-rod 5 to the crankshaft 4, and when the piston 6 starts on its return stroke it will return the piston 7 to its normal position, (shown in Fig. 1,) occupying the inner end of the cylinder and in a position to be engaged by the stop or catch 9, thus causing the pistons 6 7 to unite in forcing out the exhaust or products of'the explosion; but when the piston 6 makes its next advancing stroke or what might be termed its inspiration stroke for drawing in a new charge the piston 7 remains at rest, partially filling the com pression-chamber 8, and as a consequence the charge drawn in will be equal only to the volume of the stroke of the smaller piston 6 and will be compressed by such smaller piston when the latter returns at the next inward or return stroke, thus providing a maximum piston-surface composed of the combined cross areas of the pistons 6 7, simultaneously exposed to the same impulse of the explosion taking place in the chamber 8, but avoiding the necessity of drawing in a charge of fluid equal to the volume of the stroke of the combined pistons 6 7 and also avoiding the necessity of forcing the combined areas of the two pistons against the charge in the act of compressing it.
It is a well-known fact that the ordinary gas-engine or explosive-engine is not adapted for useinterchangeably with fixed gases, such as coal-gas or city-illuminating gas, and the mixture of air and hydrocarbon, such as gasolene, owing to the fact that with one form of fuel a higher degree of compression isrequired than with the other. In order that the engine may be adapted for this interchangeable use, I provide means for readily varying the capacity of the clearance-space or compression-chamber. This may be simply eifected by providing the under side of the piston 7 with a number of spacing-plates or shims 11, interposed between it and the upper or inner side of the flange 10, so that the position of the piston 7 may be altered with reference to the stroke of the piston 6,
thus projecting it at one time farther into the chamber 8 and reducing the latters capacity,
and when one or more shims are removed permitting it to recede from the chamber 8 and increase its capacity. These shims or plates 11, if desired, may be secured by screws 12 or other devices to the piston 7.
The stop or catch 9 is shown as passing ing the capacity of the.compression-chamber,
only in connection with an engine having a plurality of abutments, it will nevertheless be understood that the same may be employed with a singleabutment engine also without departing from the spirit of my invention.
I Having thus described my invention, what I claim as new therein, and desire to secure by Letters Patent, is
1. An explosive-engine having in combination two abutments both of which are exposed to and move under the same impulse and one of which is movable independently of the other and means for holding one of said abutments stationary while the other moves, substantially as set forth.
2. An explosive-engine having in combination a shaft, two abutments one of which is operatively connected with said shaft and makes two strokes during each revolution and the other of which makes two strokes during onerevolution and remains at rest during every other revolution, substantially as set forth.
3. An explosive-engine having incombination two abutments one of which isindependent of the other, means for holding one of dependent of both said crank-shaft and the other abutment, means for imparting the force of the explosion-stroke of said independent abutment to said crank-shaft and means for causing it to make its return stroke, substantially as set forth.
5. An explosive-engine having in combination two concentric abutments both exposed to the same impulse and one of which is movable independently of the other, a crank-shaft with which one of said abutments is operatively connected and means for imparting the explosive stroke of the other abutment to said crank-shaft, substantially as set forth.
An explosive-engine having in combination a shaft, two abutments one of which is operatively connected with said shaft and both exposed to the same impulse and one of I able independently of the other, a projection which is movable independently of the other, and a catch for holding the latter against movement during every alternate revolution, substantially as set forth.
7. An explosive-engine having in combination a shaft, an abutment operatively connected with said shaft, an annular abutment in which said first abutment is located and movable independently thereof, both of said ab utments being exposed to the same impulse, a projection on one of said abutments engaging the other to cause them to move together in one direction and to impart the explosive stroke of the annular abutment to the other abutment, a catch for holding said annular abutment while the other abutment moves and means for disengaging said catch at every other revolution of the engine, substantially as set forth.
8. An explosive-engine having in combination a shaft, two abutments one of which is operatively connected with said shaft and both subject to the same impulse and one reciprocating at every revolution of the engine and the other reciprocating during but every other revolution, and means for varying the position of the latter abutment with relation to the travel of the other one, substantially as set forth.
9. An explosive-engine having in combination a shaft, two abutments, one operatively connected with said shaft and both exposed to the same impulse and one of which is movon one of said abutnients with which the other abutment engages, a series of removable blocks or spacing-plates located between said projection and the other abutment for Vary ing the position of one abutment with relation to the stroke of the other, and means for holding one of said abutments at rest While the other moves, substantially as set forth.
10. An explosive-engine having in combination a sh aft, two abutments, one operatively connected with said shaft and both exposed to the same impulse and one of which is movable independently of the other, a catch or stop for holding one of said abutments while the other moves and a cam operatively connected with the moving parts of the engine and also with said catch or stop for Withdrawing the latter at every other revolution of the engine, substantially as set forth.
ll. An explosive-engine having in combination a shaft, two abutment-s, one operatively connected With the shaft and both exposed to the same charge and one reciprocating at every revolution of the engine and the other reciprocating during but every other revolution and means for varying the length of travel of the latter abutment with relation to the length of travel of the other one, substantially as set forth.
STANISLAUS M. ZURAWSKI.
Witnesses:
F. A. HOPKINS, E. NUNITT.
US74109199A 1899-12-21 1899-12-21 Explosive-engine. Expired - Lifetime US668250A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US74109199A US668250A (en) 1899-12-21 1899-12-21 Explosive-engine.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US74109199A US668250A (en) 1899-12-21 1899-12-21 Explosive-engine.

Publications (1)

Publication Number Publication Date
US668250A true US668250A (en) 1901-02-19

Family

ID=2736805

Family Applications (1)

Application Number Title Priority Date Filing Date
US74109199A Expired - Lifetime US668250A (en) 1899-12-21 1899-12-21 Explosive-engine.

Country Status (1)

Country Link
US (1) US668250A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2458111A (en) * 1947-02-11 1949-01-04 Soltesz Rudolph Multiple piston for internalcombustion engines
WO1994019589A1 (en) * 1993-02-23 1994-09-01 Un Kil Paek A power output boosting engine piston
US5865092A (en) * 1997-07-03 1999-02-02 Woudwyk; Anthony D. Engine connecting rod and double piston assembly
WO2018151689A1 (en) * 2017-02-18 2018-08-23 Eden Gizem Telescopic piston configuration for internal combustion engines

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2458111A (en) * 1947-02-11 1949-01-04 Soltesz Rudolph Multiple piston for internalcombustion engines
WO1994019589A1 (en) * 1993-02-23 1994-09-01 Un Kil Paek A power output boosting engine piston
US5865092A (en) * 1997-07-03 1999-02-02 Woudwyk; Anthony D. Engine connecting rod and double piston assembly
WO2018151689A1 (en) * 2017-02-18 2018-08-23 Eden Gizem Telescopic piston configuration for internal combustion engines

Similar Documents

Publication Publication Date Title
WO2003052245A1 (en) Sequential rotary piston engine
US668250A (en) Explosive-engine.
US1747091A (en) Internal-combustion engine
US820285A (en) Oil-engine.
US1149142A (en) Internal-combustion engine.
US691017A (en) Gas or oil internal-combustion engine.
US1215383A (en) Two-cycle internal-combustion engine.
US754929A (en) Internal-combustion engine for cycles.
US721872A (en) Explosive-engine.
US955288A (en) Rotary explosive-engine.
US1131296A (en) Internal-combustion engine.
US806195A (en) Motor and engine.
US941138A (en) Internal-combustion engine.
US636298A (en) Explosion-engine.
US1087841A (en) Internal-combustion engine.
US996643A (en) Gas-engine.
US1726073A (en) Engine
US979971A (en) Two-cycle internal-combustion motor.
US809081A (en) Internal-combustion engine.
US706711A (en) Multiple-cylinder explosive-engine.
US923562A (en) Internal-combustion engine.
US931531A (en) Gas-engine.
US809082A (en) Internal-combustion engine.
US1229172A (en) Internal-combustion engine.
US1310446A (en) Variable-displacement piston