US981978A - Internal-combustion motor. - Google Patents

Internal-combustion motor. Download PDF

Info

Publication number
US981978A
US981978A US4789301A US1901047893A US981978A US 981978 A US981978 A US 981978A US 4789301 A US4789301 A US 4789301A US 1901047893 A US1901047893 A US 1901047893A US 981978 A US981978 A US 981978A
Authority
US
United States
Prior art keywords
motor
motive fluid
members
sets
combustion chamber
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
US4789301A
Inventor
Clyde J Coleman
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.)
ROCKAWAY AUTOMOBILE Co
Original Assignee
ROCKAWAY AUTOMOBILE Co
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 ROCKAWAY AUTOMOBILE Co filed Critical ROCKAWAY AUTOMOBILE Co
Priority to US4789301A priority Critical patent/US981978A/en
Application granted granted Critical
Publication of US981978A publication Critical patent/US981978A/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
    • F02CGAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
    • F02C9/00Controlling gas-turbine plants; Controlling fuel supply in air- breathing jet-propulsion plants
    • F02C9/26Control of fuel supply
    • F02C9/42Control of fuel supply specially adapted for the control of two or more plants simultaneously

Definitions

  • Patented J an. 17, 1911.
  • My invention relates tointernal combustion motors and particularly to internal combustion motors designed to operate at a very high speed.
  • My invention consists in the provision of a compound compressor connected with an internal combustion motor whereby a high degree of compression of the motive fluid may be attained with a minimum expenditure of power in effecting such compression; in the provision of a storage tank for receiving and storing a reserve supply of compressed motive fluid, together with means whereby such motive fluid may be employed in the motor when desired; in providing the motor with a rotary and a stationary member having turbine blades,
  • the rotary member being exteriorly arranged; in providing the two members with two sets of turbine, blades and a combustion chamber between them; and in compounding these sets of turbine blades on both sides of the combustion chamber.
  • the objects of my invention are to provide for the rapid and continuous compression of a large quantity of motive fluid in order that a high speed may be attained in the motor, and hence a high degree of efliciency obtained therefrom, while at the same time to provide that a minimum of power may be expended for effecting the compression; to provide an auxiliary or reserve supply of compressed motive fluid to be employed in first starting up the motor; to increase the efficiency of the motor while reducing its size and weight; to maintain a low temperature in the rotary member so that it may resist the great centrifugal force; and to balance the operation of the.
  • Figure 1 is a central longitudinal sectional elevation of an internal combustion motor embodying my invention.
  • Fig. 2 is a central transverse sectional view of the same, the plane of section being taken on the line 22 of Fig. 1.
  • Fig. 3 is a-detail transverse sectional view taken upon the plane of the line 3-3 of Fig. 1.
  • Fig. 4 is a detail view in side elevation of one member of the motor.
  • a rotary compound compressor 4 Itotatably supported upon the stationary shaft is a rotary compound compressor 4.
  • the said compressor has a plurality of comcompression chambers 5, and inner compression chambers 6 of smaller diameter, and a plurality of compound reciprocating pistons for the cylinder, having heads 7 fitting the chambers 5 and smaller heads 8, fitting the chambers 6.
  • the pistons are connected by means of connecting rods 9 with a stationary wrist pin 10, supported by crank armscon- .necting to, or a part of, the stationary shaft 3.
  • the motor proper comprises two members, a stationary and a rotary member.
  • the stationary member 15 is secured upon the stationary shaft 3 and is provided with'two sets of directing vanes 16 radiating out- ,ivardly therefrom, and arranged upon opposite sides of a central combustion chamber 17,
  • the rotary member 18 is secured at one end to the compressor and at the other end is rotatably mounted upon the stationary shaft, and is arranged exteriorly to the stationary member.
  • This rotary member is provided with a plurality of radial turbine vanes 19, projecting inwardly, and arranged in proximity to the directing vanes of the stationary member 15..
  • the burner consists of a number of apertures provided radially around the hub of, the stationary member, and communicating through the hollow portion of the shaft awah the central chamber 11 of the compressor. Wire gauze is provided back of the apertures to prevent a possible back flashing of the flame from the combustion chamber into the interior of the burner.
  • the turbine vanes being arranged upon opposite sides of the central burner and-combustion chamber, a balance of force and an equal distribution of power is insured.
  • the vanes are further compounded, that is to say there are arranged on opposite sides of the combustion chamber successive rows of Jturbine impact vanes alternating with sucof motive fluid to the motor.
  • I provide a storage tank 21 which is connected to the central chamber 11 of the compressor through a pipe-or conduit 22 and a hollow portion of the stationary shaft 3. While the compressor is working, motive fluid will be stored up in this storage-tank under pressure, and will be retained therein by a check compressed fluid from returning along the pipe 22 until desired. Motive fluid is thus stored up under pressure which may be the pressure has run down therein, for the purpose of starting the motor up again.
  • I have provided a by-pass 24 around the check valve, and have provided therein a valve 25 which may be operated by hand or otherwise to permit the stored motive fluid from the tank 21 to discharge into the motor.
  • the tank is designed to store a suflicient quantity to start the rotation of the motor and to operate it until the compressor provides the normal and constantsupply.
  • the tank 21 will be recharged and the valve 25 may be closed at once or it may be closed at any time after the compressor hascommenced to supply motive fluid at a pressure greater than the pressure in the tank at that time, and before the motor has been again stopped.
  • a rotary internal combustion motor comprising two members, an inner stationary member and an outer rotary member rotatable about such stationary member, the inner member having two sets of power directing turbine blades and the outer memturbine blades, an enlarged combustion chamber located between the two sets of blades of the respective members, and means
  • the valve 25 will be closed impound cylinders connected to rotate with valve 23 which will operate to prevent the I utilized, after the motor has stopped and her having two sets 'of power developing within the combustion chamber for eifecting the combustion of the motive fluid.
  • a rotary internal combustion motor comprising two members, an inner stationary member and an outer. rotary member rotatable about such stationary member, the inner member having two sets of power directing turbine blades and the outer member having. two sets of power developing turbine blades, an enlarged combustion chamber located between the two sets of blades of the respective members, and means for efl'ecting the combustion of the motive fluid within the combustion chamber, such means including an ignition device and a passage for the motive'fluid within the stationary member and leading to said ignition device.
  • a rotary internal combustion motor comprising an inner stationary member and an outer rotarymember rotatable about such inner member, each of said members having two sets of power developing turbine blades, a combustion chamber located inside the outer rotary member and outside the inner stationary member and between the two sets of turbine blades, and ignition means within said chamber.
  • a rotary internal combustion motor comprising an inner stationary member and an outer rotary member rotatable about such inner member, said members having two sets of compound turbine power developing blades, a combustion chamber located inside of the outer rotary member and outside the inner stationary member and between 'the two sets of blades, and ignition means within said chamber.
  • a rotary internal combustion motor comprising two members, an inner stationary member provided with two power developing sets of outwardly radiating directing" vanes, an outer rotary member having two sets of inwardly radiating turbine vanes and having a combustion chamber located inside the outer rotary member and outside the inner stationary member and between the pairs of sets of varies of both the said members, and ignition means within said chamber.
  • a rotary internal combustion motor comprising two members, a stationary member and a rotary member, said members having two sets of power-developing turbine blades, and a combustion chamber between them and located outside the stationary member and within the rotary member and containing ignition means for the motive fluid, of a rotary compressor adapted to rotate with the rotary member of the said motor, and to supply motive fluid under pressure thereto.
  • a rotary internal combustion motor comprising two members, a stationary member and a rotary member, said members having two sets of power-developing turbine blades, and a combustion chamber between them and located outside the stationary member and within the rotary member and containing ignition means for the motive fluid, of a compound compressor connected to revolve with the rotary member of the said motor, and to supply motive fluid under pressure thereto.
  • said members having two power developing sets of compound turbine blades and a combustion chamber between the two said sets and located outside the stationary member and within the rotarymember and containing ignition means for the motive fluid, of a and to supply motive fluid under pressure thereto.
  • a rotary inter nal combustion motor comprising two members, a stationary member and a rotary member, said members having two power developing sets of compounded turbine blades and including a combustion chamber between them and outside the stationary member and containing ignition means for the motive fluid, of a compound compressor adapted to revolve with the rotary member of the motor, and to supply motive fluid under pressure thereto.
  • a turbine internal combustionmotor comprising an inner stationary member and an outer rotary member, the inner stationary member having outwardly radiating turbine vanes and the outer rotary member having inwardly radiating turbine vanes, such turbine vanes being arranged to present inclined, faces to motive fluid moving in the general direction of the axis of rotation of the outer rotary member and a combustion chamber in proximity to such turbine vanes and outside the stationary member and con.- taining ignition means for the motive fluid.
  • the turbine internal combustion motor comprising two members, an inner member and an outer rotary member, such means being rotatable relatively to each other and including a medial combustion chamber located outside the inner member and having ignition means therewithi-n, said combustion chamber being arranged to deliver the motive fluid along the general direction of the axis of rotation of the motor and each of such members having turbine vanes in two power developing sets, one set on each side of the combustion chamber, such turbine vanes being arranged to successively present inclined faces to the motive fluid moving in such general direction.
  • a turbine internal combustion motor comprising two members, an inner stationary member and an outer rotary member, said members having compounded turbine vanes arranged to present inclined faces to motive fluid moving in the general direction of the axis of rotation of the turbine and the outer rotary member incasing the inner stationary member, a combustion chamber located outside the inner stationary member and within the said outer rotary member and containing ignition means for the motive fluid to said outer rotary member and adapted to supply motive fluid to such combustion chamber.
  • a rotary internal combustion motor comprising two members, an inner stationary member and an outer rotary-member rotatable about such stationary member, said members having two sets of power developing turbine blades, a combustion chamber for discharging motive fluid in the combustion chamber, and ignition means within the combustion chamber.
  • a rotary internal combustion motor comprising two mem bers, a stationary member and a rotary member, said members having two sets of power developing turbine blades and a combustion chamber between the respective sets of turbine blades, such chamber being located outside the stationary member and within the rotary member and havin an unrestricted opening leadin to each 0 the sets of turbine blades, ignition means within said chamber, a compressor connected with the rotary member of saidmotor and arranged to revolve therewith upon the stationary mem- 'ber of said motor, such compressor being adapted to supply motive fluid under pressure to the motor.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)

Description

0. J. COLEMAN. INTERNAL COMBUSTION MOTOR. APPLICATION FILED FEB. 18, 1901.
981,978. Patented Jan. 17,1911.
2 SHEETSSHEET 1.
WITNESSES:
G. J. COLEMAN.
INTERNAL COMBUSTION MOTOR.
APPLICATION I'ILED PEBJB, 1901.
Patented J an. 17, 1911.
2 SHEETS-SHEET 2.
%W wMZ@LM ATTO'FNEY UNITED, STATES PATENT OFFICE.-
CLYDE J. COLEMAN, OF NEW YORK, N; Y., ASSIGNOR TO ROCKAWAY AUTOMOBILE OOM- PANY, OF ROGKAWAY, NEW JERSEY, A CORPORATION OF NEW JERSEY.
INTERNAL-COMBUSTION IIVIIO'JTOR.
Specification of Letters Patent.
Patented Jan. 17, 1911.
Application filed February 18, 1901. Serial No. 47,893.
To all whom 'it may concern:
Be it known that I, CLYDE J. COLEMAN, a citizen of the United States, and a resident of the borough of Manhattan, in the county of New York, city of New York,
and State of New York, have invented new and useful Improvements in Internal-Combustion Motors, of which the following is a specification, reference being had to the accompanying drawings, forming partthereof.
My invention relates tointernal combustion motors and particularly to internal combustion motors designed to operate at a very high speed.
My invention consists in the provision of a compound compressor connected with an internal combustion motor whereby a high degree of compression of the motive fluid may be attained with a minimum expenditure of power in effecting such compression; in the provision of a storage tank for receiving and storing a reserve supply of compressed motive fluid, together with means whereby such motive fluid may be employed in the motor when desired; in providing the motor with a rotary and a stationary member having turbine blades,
' the rotary member being exteriorly arranged; in providing the two members with two sets of turbine, blades and a combustion chamber between them; and in compounding these sets of turbine blades on both sides of the combustion chamber. The objects of my invention are to provide for the rapid and continuous compression of a large quantity of motive fluid in order that a high speed may be attained in the motor, and hence a high degree of efliciency obtained therefrom, while at the same time to provide that a minimum of power may be expended for effecting the compression; to provide an auxiliary or reserve supply of compressed motive fluid to be employed in first starting up the motor; to increase the efficiency of the motor while reducing its size and weight; to maintain a low temperature in the rotary member so that it may resist the great centrifugal force; and to balance the operation of the.
motor, wherebysteadiness of working and greater speed with proportionately less vibration are obtained.
My invention further consists in certain details of construction and combination of parts as will hereinafter more fully appear,
and other advantages will be ap arent from the more detailed description following. I will now proceed to describe an internal combustion motor embodying my invention and will then point out the novel features in claims. v
In the drawings which form a part of this specification; Figure 1 is a central longitudinal sectional elevation of an internal combustion motor embodying my invention. Fig. 2, is a central transverse sectional view of the same, the plane of section being taken on the line 22 of Fig. 1. Fig. 3, is a-detail transverse sectional view taken upon the plane of the line 3-3 of Fig. 1. Fig. 4, is a detail view in side elevation of one member of the motor.
In the present embodiment of my invention I-provide a base plate 1 having standards 2 which support the opposite ends of a stationary shaft 3.
Itotatably supported upon the stationary shaft is a rotary compound compressor 4. The said compressor has a plurality of comcompression chambers 5, and inner compression chambers 6 of smaller diameter, and a plurality of compound reciprocating pistons for the cylinder, having heads 7 fitting the chambers 5 and smaller heads 8, fitting the chambers 6. The pistons are connected by means of connecting rods 9 with a stationary wrist pin 10, supported by crank armscon- .necting to, or a part of, the stationary shaft 3.
When the compressor 4 rotates upon the stationary shaft 3 the pistons are caused to reciprocate and motive fluid is initially compressed in the outer chambers 5 of the cylinders and discharged from thence into the inner chambers 6. The motive fluid is further compressed in the inner chambers and is then discharged into the central chamber 11 of the compressor, from whence it is delivered through a hollow portion of the stationary shaft into the combustion chamber of the motor. Motive fluid is delivered to the outer chambers 5 of the compressor cylinders through pipes or conduits 12 which connect with a receiving chamber 13, this receiving chamber being in direct communication with a carbureter 14.
The motor proper comprises two members, a stationary and a rotary member. The stationary member 15 is secured upon the stationary shaft 3 and is provided with'two sets of directing vanes 16 radiating out- ,ivardly therefrom, and arranged upon opposite sides of a central combustion chamber 17, The rotary member 18 is secured at one end to the compressor and at the other end is rotatably mounted upon the stationary shaft, and is arranged exteriorly to the stationary member. This rotary member is provided with a plurality of radial turbine vanes 19, projecting inwardly, and arranged in proximity to the directing vanes of the stationary member 15..
At the center of the combustion chamber 17 is .provided a burner 20. The burner consists of a number of apertures provided radially around the hub of, the stationary member, and communicating through the hollow portion of the shaft awah the central chamber 11 of the compressor. Wire gauze is provided back of the apertures to prevent a possible back flashing of the flame from the combustion chamber into the interior of the burner.
The turbine vanes being arranged upon opposite sides of the central burner and-combustion chamber, a balance of force and an equal distribution of power is insured. The vanes are further compounded, that is to say there are arranged on opposite sides of the combustion chamber successive rows of Jturbine impact vanes alternating with sucof motive fluid to the motor.
cessive rows of turbine directing vanes.
In this manner a high degree of elficiency is obtained.
It is my intention to operate the motor herein at a high'rate of speed in order to obtain a high degree of efiiciency. In order that it shall run at a high rate of speed it is necessary to continuously compress a large quantity of motive fluid to a high degree so as to deliver a suflicient quantity To this end a compound--com ressor is employed for the reason that a iigher degree of efliciency combined with small dimensions and weight of the parts and the use of a smaller amount of power is possible in a compressor of such type. With the compressor connected to rotate with the rotary member of themotor, it is essential that the parts should be small and light, otherwise centrifugal force would be liable to be generated to an unsafe extent, and vibration and wear would be excessive. If motive. fluid is employed at a high pressure and a motor having turbine vanes is employed, it is essential to economical and efficient operation that the vanes should be compounded, otherwise the motive fluid would be forced throu h the vanes without producing the most' e ective results, and a large percentage of its energy would be wasted. Hence I employ a compound compressor combmed with a turbine motor having compound vanesand by such combination obtain an internal combustion motor of small size and exceedingly high efliciency.
In order to obtain a supply of compressed motive fluid when starting up the motor, I provide a storage tank 21 which is connected to the central chamber 11 of the compressor through a pipe-or conduit 22 and a hollow portion of the stationary shaft 3. While the compressor is working, motive fluid will be stored up in this storage-tank under pressure, and will be retained therein by a check compressed fluid from returning along the pipe 22 until desired. Motive fluid is thus stored up under pressure which may be the pressure has run down therein, for the purpose of starting the motor up again. In order to use the compressed and stored motive fluid for such purpose I have provided a by-pass 24 around the check valve, and have provided therein a valve 25 which may be operated by hand or otherwise to permit the stored motive fluid from the tank 21 to discharge into the motor. The tank is designed to store a suflicient quantity to start the rotation of the motor and to operate it until the compressor provides the normal and constantsupply. During the operation of the motor the tank 21 will be recharged and the valve 25 may be closed at once or it may be closed at any time after the compressor hascommenced to supply motive fluid at a pressure greater than the pressure in the tank at that time, and before the motor has been again stopped.
mediately the motor hascommenced to run at full speed and pressure. I
It is evident that various changes and modifications may be made in the construc tion shown and above particularly described within the spirit and scope of my invention.
What I claim and desire to secure by Letters Patent is :w
1. The combination with an internal combustion motor com rising two members, the one stationary an the other rotary, of a compressor comprising a plurality of comsaid rotary member, and having reciprocating pistons mounted therein and-connected to a stationary wrist pin, such compressor being adapted to compress motive fluid for the motor.
2. A rotary internal combustion motor comprising two members, an inner stationary member and an outer rotary member rotatable about such stationary member, the inner member having two sets of power directing turbine blades and the outer memturbine blades, an enlarged combustion chamber located between the two sets of blades of the respective members, and means Preferably the valve 25 will be closed impound cylinders connected to rotate with valve 23 which will operate to prevent the I utilized, after the motor has stopped and her having two sets 'of power developing within the combustion chamber for eifecting the combustion of the motive fluid.
3. A rotary internal combustion motor comprising two members, an inner stationary member and an outer. rotary member rotatable about such stationary member, the inner member having two sets of power directing turbine blades and the outer member having. two sets of power developing turbine blades, an enlarged combustion chamber located between the two sets of blades of the respective members, and means for efl'ecting the combustion of the motive fluid within the combustion chamber, such means including an ignition device and a passage for the motive'fluid within the stationary member and leading to said ignition device.
4. A rotary internal combustion motor comprising an inner stationary member and an outer rotarymember rotatable about such inner member, each of said members having two sets of power developing turbine blades, a combustion chamber located inside the outer rotary member and outside the inner stationary member and between the two sets of turbine blades, and ignition means within said chamber.
5. A rotary internal combustion motor comprising an inner stationary member and an outer rotary member rotatable about such inner member, said members having two sets of compound turbine power developing blades, a combustion chamber located inside of the outer rotary member and outside the inner stationary member and between 'the two sets of blades, and ignition means within said chamber.
6. A rotary internal combustion motor comprising two members, an inner stationary member provided with two power developing sets of outwardly radiating directing" vanes, an outer rotary member having two sets of inwardly radiating turbine vanes and having a combustion chamber located inside the outer rotary member and outside the inner stationary member and between the pairs of sets of varies of both the said members, and ignition means within said chamber.
7. The combination with a rotary internal combustion motor comprising two members, a stationary member and a rotary member, said members having two sets of power-developing turbine blades, and a combustion chamber between them and located outside the stationary member and within the rotary member and containing ignition means for the motive fluid, of a rotary compressor adapted to rotate with the rotary member of the said motor, and to supply motive fluid under pressure thereto.
8. The combination with a rotary internal combustion motor comprising two members, a stationary member and a rotary member, said members having two sets of power-developing turbine blades, and a combustion chamber between them and located outside the stationary member and within the rotary member and containing ignition means for the motive fluid, of a compound compressor connected to revolve with the rotary member of the said motor, and to supply motive fluid under pressure thereto.
9. The combination with a rotary internal combustion motor comprising two members,
a stationary member and a rotary member,
said members having two power developing sets of compound turbine blades and a combustion chamber between the two said sets and located outside the stationary member and within the rotarymember and containing ignition means for the motive fluid, of a and to supply motive fluid under pressure thereto.
11. The combination with a rotary inter nal combustion motor comprising two members, a stationary member and a rotary member, said members having two power developing sets of compounded turbine blades and including a combustion chamber between them and outside the stationary member and containing ignition means for the motive fluid, of a compound compressor adapted to revolve with the rotary member of the motor, and to supply motive fluid under pressure thereto.
12. A turbine internal combustionmotor comprising an inner stationary member and an outer rotary member, the inner stationary member having outwardly radiating turbine vanes and the outer rotary member having inwardly radiating turbine vanes, such turbine vanes being arranged to present inclined, faces to motive fluid moving in the general direction of the axis of rotation of the outer rotary member and a combustion chamber in proximity to such turbine vanes and outside the stationary member and con.- taining ignition means for the motive fluid.
13. The turbine internal combustion motor comprising two members, an inner member and an outer rotary member, such means being rotatable relatively to each other and including a medial combustion chamber located outside the inner member and having ignition means therewithi-n, said combustion chamber being arranged to deliver the motive fluid along the general direction of the axis of rotation of the motor and each of such members having turbine vanes in two power developing sets, one set on each side of the combustion chamber, such turbine vanes being arranged to successively present inclined faces to the motive fluid moving in such general direction.
14. The combination with a turbine internal combustion motor, comprising two members, an inner stationary member and an outer rotary member, said members having compounded turbine vanes arranged to present inclined faces to motive fluid moving in the general direction of the axis of rotation of the turbine and the outer rotary member incasing the inner stationary member, a combustion chamber located outside the inner stationary member and within the said outer rotary member and containing ignition means for the motive fluid to said outer rotary member and adapted to supply motive fluid to such combustion chamber.
15. A rotary internal combustion motor comprising two members, an inner stationary member and an outer rotary-member rotatable about such stationary member, said members having two sets of power developing turbine blades, a combustion chamber for discharging motive fluid in the combustion chamber, and ignition means within the combustion chamber.
16. The combination with a rotary internal combustion motor comprising two mem bers, a stationary member and a rotary member, said members having two sets of power developing turbine blades and a combustion chamber between the respective sets of turbine blades, such chamber being located outside the stationary member and within the rotary member and havin an unrestricted opening leadin to each 0 the sets of turbine blades, ignition means within said chamber, a compressor connected with the rotary member of saidmotor and arranged to revolve therewith upon the stationary mem- 'ber of said motor, such compressor being adapted to supply motive fluid under pressure to the motor.
Signed at New York, N. Y.,'this 8th day of February, 1901.
CLYDE .J. COLEMAN.
Witnesses:
HENRY D. WILLIAMS, HERBERT H. GIBBS.
US4789301A 1901-02-18 1901-02-18 Internal-combustion motor. Expired - Lifetime US981978A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US4789301A US981978A (en) 1901-02-18 1901-02-18 Internal-combustion motor.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US4789301A US981978A (en) 1901-02-18 1901-02-18 Internal-combustion motor.

Publications (1)

Publication Number Publication Date
US981978A true US981978A (en) 1911-01-17

Family

ID=3050340

Family Applications (1)

Application Number Title Priority Date Filing Date
US4789301A Expired - Lifetime US981978A (en) 1901-02-18 1901-02-18 Internal-combustion motor.

Country Status (1)

Country Link
US (1) US981978A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2795109A (en) * 1952-06-23 1957-06-11 Parsons C A & Co Ltd Combined combustion chamber, heat exchanger and flame trap for combustion turbine plants
US2982094A (en) * 1955-08-08 1961-05-02 Adolphe C Peterson Gas turbine and jet means

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2795109A (en) * 1952-06-23 1957-06-11 Parsons C A & Co Ltd Combined combustion chamber, heat exchanger and flame trap for combustion turbine plants
US2982094A (en) * 1955-08-08 1961-05-02 Adolphe C Peterson Gas turbine and jet means

Similar Documents

Publication Publication Date Title
US2409176A (en) Gas turbine system
JP2007046610A (en) Multistage motor-compressor for compression of fluid for automobile
US981978A (en) Internal-combustion motor.
US3956894A (en) Air-steam-vapor expansion engine
US3518028A (en) Power reduction of liquid ring pumps
CN103953395A (en) Hydrodynamic force machine with rotating wheel slewing mechanism
US1828782A (en) Gas turbine
US901539A (en) Multiple-stage air-compressor.
US1094919A (en) Turbo-displacement engine.
US559324A (en) I t dyer
US1135648A (en) Internal-combustion turbine.
US1968694A (en) Motor and pump
US6808836B2 (en) Air supply system for fuel cell
US1769647A (en) Fluid pump
US2984751A (en) Integral turbine-generator unit
US2543923A (en) Radial air compressor
US1976761A (en) Engine
US1405551A (en) Turbine
US1328835A (en) Turbine
US1388371A (en) Xatherine m
US20080276903A1 (en) Viktor Gorb's Rotary Internal Combustion Engine
US1255852A (en) Gas-turbine.
KR100633921B1 (en) An apparatus for generating a compressed air of a high-pressure
US1304928A (en) anderson
US3078671A (en) Gas turbine power plant