US799062A - Compound steam-turbine. - Google Patents

Compound steam-turbine. Download PDF

Info

Publication number
US799062A
US799062A US22594604A US1904225946A US799062A US 799062 A US799062 A US 799062A US 22594604 A US22594604 A US 22594604A US 1904225946 A US1904225946 A US 1904225946A US 799062 A US799062 A US 799062A
Authority
US
United States
Prior art keywords
cylinder
helical
piston
motive
rotary
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
US22594604A
Inventor
Charles V Kerr
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.)
KERR TURBINE Co
Original Assignee
KERR TURBINE 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 KERR TURBINE Co filed Critical KERR TURBINE Co
Priority to US22594604A priority Critical patent/US799062A/en
Application granted granted Critical
Publication of US799062A publication Critical patent/US799062A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D3/00Axial-flow pumps
    • F04D3/02Axial-flow pumps of screw type

Definitions

  • My invention relates to compound steamturbines, known more especially as the helical or screw type.
  • the objects of my invention are, first, to construct a steam-turbine of compact form and small horse-power which will be particularly well adapted for generating electric current for locomotive-headlights or the like; second, to provide means with my form of turbine construction whereby the engine may be quickly and efliciently reversed; third, to so construct the casing, the steam-chest, nozzle-ring, and the rotating member of the turbine whereby the same may be quickly and easily assembled or repaired; fourth.
  • Figure 1 is a longitudinal section of my invention as applied to a single-cylinder construction.
  • Fig. 2 is a longitudinal section of my invention as applied to an engine of the reversible type.
  • Fig. 3 is an enlarged view of one of the baffle pins or posts in the spiral passage around the rotary drum.
  • Fig. at is a transverse section of the baffle-pin on line 6 6 of Fig. 3.
  • Fig. 5 is a section on line 7 7 of Fig. e.
  • Fig. 6 is an enlarged View of a modified form of batlie-post.
  • Fig. 7 is a top view of Fig. 6.
  • Fig. 8 is a fragmentary and sectional view of the ring provided with the nozzle-openings for leading the steam from the chest against the battle-posts in the spiral passage of the rotating drum.
  • 1 represents the cylinder of the engine, having an internal bore corresponding to the frustum of a cone.
  • 2 and 3 are the heads, respectively, of the larger and smaller ends of the cylinder.
  • the head 3 is provided with a steam-chest 9. to which is connected a pipe 10, leading to a boiler or other source of suitable motive agent.
  • the other head 9. is provided with an outlet 11 for the exhaust of the motive agent.
  • 6 6 are the ends of the drum.
  • Extending from and connected to the outer side of the cylindrical drum 5 is a helical rib 7 of gradually-increasing width from the steam-chest end 3 to the exhaust end 2, so as to form with the interior wall of the cylinder 1 and the outer wall of the drum 5 a helical passage of grad uall y-increasing depth and corresponding to the expanding or variable internal bore of the cylinder.
  • baffle pins or posts are a plurality of baffle pins or posts secured to the outer wall of the rotary drum or piston and in the spiral passages and of gradually-increasing height corresponding to the increased height of the spiral passage from the steam-chest to the eX- haust end.
  • Said bafiie pins or posts are preferably formed with a shank 12, having an extension or plate 13, which has a circular flange at its bottom and gradually increases in size toward its outer end and lunate in cross-section, as indicated in Figs. 4 and 5.
  • 'hile I have particularly described and specifically shown them as lunate in cross-section, they may be solid or circular.
  • the pins or baffle-posts are fastened to the rotary piston or drum 5 (see Fig. 6) by being fitted or seated by means of the flange 15 in properly spaced and arranged openings 1 1 in the drum and helical passage.
  • the outer ends of the shanks 12 are upset against the inner wall of the piston or rotary drum 5, thereby affording a cheap and secure means of fastening.
  • nozzle-ring 16 is a nozzle-ring, and consists of an annular ring (see Figs. 1, 2) firmly held between the smaller end of the cylinder 1 and the inner end of the smaller head 3 and provided (see Fig. 8) with openings 17 and inclined reduced passages 18, which are connected with the interior of the steam-chest 9, the function and operation of which will be hereinafter described.
  • Fig. l I have shown my invention of a compound steam-turbine provided with baffleposts in a helical passage of increasing diameter as applied to a single cylinder.
  • Fig. 2 I have provided means for reversing the engine and which comprises two engines similar in construction, as shown and described in connection with the single cylinder, (see Fig. 1,) in which their exhaust ends are connected to a common exhaust-chamber which is provided with a partition 38 and a common exhaust-pipe 11. 39 39 are branch pipes leading from the steam-chests at the outer ends of the engine to a three-way valve 40, which controls the live steam in pipe 41 to either steam-chest at the ends of the engine.
  • thelive steam or other expansible fluid enters the steam-chest 9 through the pipe 10 into and through a nozzle-ring 16, or, if so desired, directly into the gradually-expanding helical passage of the rotary piston and against the baffleposts therein.
  • the steam in passing through the helical passage with a great velocity impinges against the baffle-posts and thereby rotates the piston or drum and the shaft attached thereto, from which by means of gearing or otherwise power may be transmitted.
  • the expansion of the steam is'provided for by the graduall y-increasing diameter of the helical passage.
  • the steam after passing through the helical passage enters the chamber at the largerend of the cylinder-casing and by means of the connected exhaustpipe to the outside air or condenser.
  • Fig. 2 is an arrangement of the same specific construction of rotary motor as adapted to a reversible type.
  • the motive fluid is passed either to the right or left cylinder by means of the three-way valve, and the other cylinder runs idle in a chamber of reduced pressure or resistance if connected to a vacuum.
  • rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and 'an exhaust-outlet at the larger end of the cylinder. a rotary shaft extending centrally in the cylinder, a rotary piston fixed to the shaft,
  • helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually increasing cross-sectional area and baffle-posts on the rotary piston between the adjacent helical ribs and in the passages.
  • a rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and an exhaust-outlet at the larger end of the cylinder, a rotary shaft extending centrally in the cylinder, a rotary piston fixed to the shaft,
  • a rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and an exhaustoutlet at the larger end of the cylinder, a rotary shaft extending centrally in the cylinder, a rotary piston fixed to the shaft.
  • helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area and baffle-posts on the rotary piston between the adjacent helical ribs and in the passages, said baffleposts having concave faces for receiving the impingement of the motive fluid.
  • a rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and an exhaust-outlet at the larger end of the cylinder, a rotary shaft extending centrally in the cylinder, a rotary cylindrical piston fixed to the shaft, helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area and tive-fluid inlet at the smaller end and an exbetween the adjacent helical ribs and in the haust-outlet at the larger end of the cham- 3 ber, helical ribs on the piston extending to the inner surface of the cylinder and forming i therewith helical passages of gradually-increasing crosssectional area, and bafiie-posts on the piston between the adjacenthelical ribs and in the passages.
  • a rotary motor comprising a cylinder, at
  • a motive-fluid chest adjacent to and connected rotary shaft extending centrally in the cylin- 1 der, a piston fixed to the shaft the outer surface of which forms with the inner surface of the cylinder an annular chamber of grad ually-increasing cross-sectional area, a mewith the injector-openings of the nozzle-ring, a motive-fluid inlet connected to the chest, an exhaust-outlet leading from the largerend of the cylinder, a rotary shaft extendingcentrally in the cylinder, a rotary piston fixed to the tive-tluid chest at the smaller end of the anl nular chamber, a nozzle-ring interposed between the motive-fluid chest and the annular chamber, injectoropenings in the nozzle-ring, a motive-fluid inlet connected to the chest, an
  • helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area and battle-posts on the rotary piston between the adjacent helical ribs and in the passages.
  • a reversible rotary motor comprising and whose larger or exhaust ends abut each ,other, a partition interposed between the and bafiie-posts 0n the piston between the adjapartially closing communication between the cent helical ribs and in the passages.
  • a rotary motor comprising a cylinder, a I
  • rotary shaft extending centrally in the cylinder, a piston fixed to the shaft the outer surface of which forms with the inner surface 3 of the cylinder an annular chamber of grad 5 ually-increasing cross-sectional area, a motive-fluid chest at the smaller end of the annular chamber, a removable nozzle-ring interposed between the motive-fluid chest and the annularchamber, injector-openings in the nozzle-ring, a motive-fluid inlet connected to the chest, an exhaust-outlet leading from the larger end of the annular chamber, helical ribs on the piston extending to the innersurface of the cylinder and forming therewith helical passages of gradually-increasing crosssectional area, and baffle-posts on the piston between the adjacent helical ribs and in the passages.
  • a rotary motor comprising a cylinder, a rotary shaft extending centrally in the cylinder, a piston fixed to the shaft the outer surface of which forms with the inner surface of the cylinder an annular chamber of gradually-increasing cross-sectional area, a motive-fluid chest at the smaller end of the annular chamber, a removable nozzle-ring interposed between the motive-fluid chest and the annular chamber, injector-openii'igs in the nozzle-ring, a motive-fluid inlet connected to the chest, an exhaust-outlet leading from the larger end of the annular chamber, helical ribs on the piston extending to the inner surface of the cylinder and forming therewith helical passages of grad ually-increasingcrosssectional area, and battle-posts on the piston larger or exhaust ends of the cylinders, and
  • a common exhaust connected with the larger or exhaust ends of the cylinders, a motive-fluid chest at the smaller or outer end of each of the cylinders, a supply-main connected with the motive fluid, a branch pipe leading from each of the motivelluid chests to the supply-main, a three-way valve in said supply-main and controlling the fluid -supply to either of said branch pipes and motive-fluid chests, a rotaryshaft extending centrally in each of the cylinders, a piston in each of the cylinders and fixed to the rotary shaft, the outer surfaces of the pistons forming with the inner surfaces of the cylinders two oppositely-arranged annular chambers of gradually-increasing cross-sectional area, helical ribs on each of the pistons extending to the inner surfaces of the cylinders and forming therewith helical passages of gradually-increasing cross-sectional area and baffle-posts on the pistons between the helical ribs and in
  • a reversible rotary motor comprising two cylinders of gradually-increasing bore and whose larger or exhaust ends abut each other, a partition interposed between the larger or exhaust ends of the cylinders, and partially closing coinniunicatitm between the ends of the cylinders, a common exhaust con nected with the larger or exhaust ends of the cylinders, a motivefiuid chest at the smaller or outer end of each of the cylinders, a removable nozzle-ring interposed between each of the motive-fluid chests and the smaller end of the cylinders, injector-openingsin the nozzle-rings, a supply-main connected with the motive fluid, a branch pipe leading from each of the motive-fluid chests to the supply-main,
  • a three-way valve in said supply-main and each of the pistons extending to the inner surfaces of the cylinders and forming therewith helical passages of gradually-increasing crosssectional area and baffle-posts on the pistons between the helical ribs and in the passages.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Jet Pumps And Other Pumps (AREA)

Description

PATENTE D SEPT. 12, 1905.
G. V. KERR.
COMPOUND STEAM TURBINE.
APPLICATION FILED SEPT. ze,1ao4.
2 SHEETS-SHEET 1.
W W a I W Ml .& p f m w M 1 J 2 4 H a 2 2w Mm 6 8 l 1 7 I 7 K 6 I: -1 m 9. h 1 mi 8 n 5 Wit-nun: JMz.
U5 mm May 3 BATBNTED SEPT. 12, 1905.
G. V. KERR.
COMPOUND STEAM TURBINE.
APPLICATION TILED SEPT. 26.1904- 2 SHEETS-SHEET Z.
( arZes [/frzr UNITED STATES PATENT OFFICE.
CHARLES V. KERR, OF WELLSVILLE, NElV YORK, ASSIGNOR TO KERR TURBINE COMPANY, OF WELLSVILLE, NEW YORK, A CORPORATION OF NEXV YORK.
Specification of Letters Patent.
Patented Sept. 12, 1905.
Application filed September 26,1904. Serial No. 225,946.
To [all 111710711 if TIMI/.7] concern:
Be it known that 1, CHARLES V. KERR, a citizen of the United States, residing at *ellsville, in the county of Allegany and State of New York, have invented certain new and useful Improvements in Compound Steam- Turbines, of which the following is a specification.
My invention relates to compound steamturbines, known more especially as the helical or screw type.
The objects of my invention are, first, to construct a steam-turbine of compact form and small horse-power which will be particularly well adapted for generating electric current for locomotive-headlights or the like; second, to provide means with my form of turbine construction whereby the engine may be quickly and efliciently reversed; third, to so construct the casing, the steam-chest, nozzle-ring, and the rotating member of the turbine whereby the same may be quickly and easily assembled or repaired; fourth. other evident advantages and features of the specific construction and arrangement of the parts, which will hereinafter appear from the detailed description of the engine and manner of using the same.
My invention consists of structural features and relative arrangements of elements, which will be hereinafter more fully and clearly described, and pointed out in the appended claims.
Referring to the two sheets of drawings, in which similar reference characters indicate the same parts in the several figures, Figure 1 is a longitudinal section of my invention as applied to a single-cylinder construction. Fig. 2 is a longitudinal section of my invention as applied to an engine of the reversible type. Fig. 3 is an enlarged view of one of the baffle pins or posts in the spiral passage around the rotary drum. Fig. at is a transverse section of the baffle-pin on line 6 6 of Fig. 3. Fig. 5 is a section on line 7 7 of Fig. e. Fig. 6 is an enlarged View of a modified form of batlie-post. Fig. 7 is a top view of Fig. 6. Fig. 8 is a fragmentary and sectional view of the ring provided with the nozzle-openings for leading the steam from the chest against the battle-posts in the spiral passage of the rotating drum.
Referring now more particularly to the drawings, 1 represents the cylinder of the engine, having an internal bore corresponding to the frustum of a cone. 2 and 3 are the heads, respectively, of the larger and smaller ends of the cylinder. The head 3 is provided with a steam-chest 9. to which is connected a pipe 10, leading to a boiler or other source of suitable motive agent. The other head 9. is provided with an outlet 11 for the exhaust of the motive agent.
In the heads 2 and 3 is journaled by any suitable bearings a shaft at, having secured thereto a rotary piston or cylindrical drum 5. 6 6 are the ends of the drum. Extending from and connected to the outer side of the cylindrical drum 5 is a helical rib 7 of gradually-increasing width from the steam-chest end 3 to the exhaust end 2, so as to form with the interior wall of the cylinder 1 and the outer wall of the drum 5 a helical passage of grad uall y-increasing depth and corresponding to the expanding or variable internal bore of the cylinder.
8 8 (see Figs. 5 7) are a plurality of baffle pins or posts secured to the outer wall of the rotary drum or piston and in the spiral passages and of gradually-increasing height corresponding to the increased height of the spiral passage from the steam-chest to the eX- haust end. Said bafiie pins or posts (see Figs. 34) are preferably formed with a shank 12, having an extension or plate 13, which has a circular flange at its bottom and gradually increases in size toward its outer end and lunate in cross-section, as indicated in Figs. 4 and 5. 'hile I have particularly described and specifically shown them as lunate in cross-section, they may be solid or circular. The pins or baffle-posts are fastened to the rotary piston or drum 5 (see Fig. 6) by being fitted or seated by means of the flange 15 in properly spaced and arranged openings 1 1 in the drum and helical passage. The outer ends of the shanks 12 are upset against the inner wall of the piston or rotary drum 5, thereby affording a cheap and secure means of fastening.
16 is a nozzle-ring, and consists of an annular ring (see Figs. 1, 2) firmly held between the smaller end of the cylinder 1 and the inner end of the smaller head 3 and provided (see Fig. 8) with openings 17 and inclined reduced passages 18, which are connected with the interior of the steam-chest 9, the function and operation of which will be hereinafter described.
In Fig. l I have shown my invention of a compound steam-turbine provided with baffleposts in a helical passage of increasing diameter as applied to a single cylinder.
In Fig. 2 I have provided means for reversing the engine and which comprises two engines similar in construction, as shown and described in connection with the single cylinder, (see Fig. 1,) in which their exhaust ends are connected to a common exhaust-chamber which is provided with a partition 38 and a common exhaust-pipe 11. 39 39 are branch pipes leading from the steam-chests at the outer ends of the engine to a three-way valve 40, which controls the live steam in pipe 41 to either steam-chest at the ends of the engine.
The operation of the device is as follows: Referring more particularly to Fig. 1, thelive steam or other expansible fluid enters the steam-chest 9 through the pipe 10 into and through a nozzle-ring 16, or, if so desired, directly into the gradually-expanding helical passage of the rotary piston and against the baffleposts therein. The steam in passing through the helical passage with a great velocity impinges against the baffle-posts and thereby rotates the piston or drum and the shaft attached thereto, from which by means of gearing or otherwise power may be transmitted. The expansion of the steam is'provided for by the graduall y-increasing diameter of the helical passage. The steam after passing through the helical passage enters the chamber at the largerend of the cylinder-casing and by means of the connected exhaustpipe to the outside air or condenser.
Fig. 2 is an arrangement of the same specific construction of rotary motor as adapted to a reversible type. In this form the motive fluid is passed either to the right or left cylinder by means of the three-way valve, and the other cylinder runs idle in a chamber of reduced pressure or resistance if connected to a vacuum.
Various changes may be made in the details of my invention and the form of the cylinder and its cooperating rotary piston in order to provide a gradually-increasing chamber between the inner wall of the cylinder and the outer wall of the piston, and while I have shown a conical-shaped bore for the cylinder and a cylindrical-shaped piston to effect this construction I do not care 'to limit myself to this specific construction, as this arrangement could be reversed-that is, a cylindrical bore with a conical-shaped piston could be utilized and accomplish the same results.
Having now described my invention, what I claim as new, and desire to secure by Letters Patent, is
- L -A rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and 'an exhaust-outlet at the larger end of the cylinder. a rotary shaft extending centrally in the cylinder, a rotary piston fixed to the shaft,
helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually increasing cross-sectional area and baffle-posts on the rotary piston between the adjacent helical ribs and in the passages.
2. A rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and an exhaust-outlet at the larger end of the cylinder, a rotary shaft extending centrally in the cylinder, a rotary piston fixed to the shaft,
helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of graduallyincreasing cross-sectional area and staggered baflie-posts on the rotary piston between the adjacent helical ribs and in the passages. 3. A rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and an exhaustoutlet at the larger end of the cylinder, a rotary shaft extending centrally in the cylinder, a rotary piston fixed to the shaft. helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area and baffle-posts on the rotary piston between the adjacent helical ribs and in the passages, said baffleposts having concave faces for receiving the impingement of the motive fluid.
4. A rotary motor comprising a cylinder having a gradually-increasing bore, an expansible motive-fluid inlet at the smaller end and an exhaust-outlet at the larger end of the cylinder, a rotary shaft extending centrally in the cylinder, a rotary cylindrical piston fixed to the shaft, helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area and tive-fluid inlet at the smaller end and an exbetween the adjacent helical ribs and in the haust-outlet at the larger end of the cham- 3 ber, helical ribs on the piston extending to the inner surface of the cylinder and forming i therewith helical passages of gradually-increasing crosssectional area, and bafiie-posts on the piston between the adjacenthelical ribs and in the passages.
6. A rotary motor comprising a cylinder, at
'ringat the smallerend ofthe cylinder, injectoropenings in the ring leading into the cylinder,
1 a motive-fluid chest adjacent to and connected rotary shaft extending centrally in the cylin- 1 der, a piston fixed to the shaft the outer surface of which forms with the inner surface of the cylinder an annular chamber of grad ually-increasing cross-sectional area, a mewith the injector-openings of the nozzle-ring, a motive-fluid inlet connected to the chest, an exhaust-outlet leading from the largerend of the cylinder, a rotary shaft extendingcentrally in the cylinder, a rotary piston fixed to the tive-tluid chest at the smaller end of the anl nular chamber, a nozzle-ring interposed between the motive-fluid chest and the annular chamber, injectoropenings in the nozzle-ring, a motive-fluid inlet connected to the chest, an
exhaust-outlet leading from the larger end of the annular chamber, helical ribs on the pisi two cylinders of gradually-increasing bore ton extending to the innersurface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area,
shaft, helical ribs on the rotary piston extending to the inner surface of the cylinder and forming therewith helical passages of gradually-increasing cross-sectional area and battle-posts on the rotary piston between the adjacent helical ribs and in the passages.
10. A reversible rotary motor comprising and whose larger or exhaust ends abut each ,other, a partition interposed between the and bafiie-posts 0n the piston between the adjapartially closing communication between the cent helical ribs and in the passages.
T. A rotary motor comprising a cylinder, a I
rotary shaft extending centrally in the cylinder, a piston fixed to the shaft the outer surface of which forms with the inner surface 3 of the cylinder an annular chamber of grad 5 ually-increasing cross-sectional area, a motive-fluid chest at the smaller end of the annular chamber, a removable nozzle-ring interposed between the motive-fluid chest and the annularchamber, injector-openings in the nozzle-ring, a motive-fluid inlet connected to the chest, an exhaust-outlet leading from the larger end of the annular chamber, helical ribs on the piston extending to the innersurface of the cylinder and forming therewith helical passages of gradually-increasing crosssectional area, and baffle-posts on the piston between the adjacent helical ribs and in the passages.
8. A rotary motor comprising a cylinder, a rotary shaft extending centrally in the cylinder, a piston fixed to the shaft the outer surface of which forms with the inner surface of the cylinder an annular chamber of gradually-increasing cross-sectional area, a motive-fluid chest at the smaller end of the annular chamber, a removable nozzle-ring interposed between the motive-fluid chest and the annular chamber, injector-openii'igs in the nozzle-ring, a motive-fluid inlet connected to the chest, an exhaust-outlet leading from the larger end of the annular chamber, helical ribs on the piston extending to the inner surface of the cylinder and forming therewith helical passages of grad ually-increasingcrosssectional area, and battle-posts on the piston larger or exhaust ends of the cylinders, and
ends of the cylinders, a common exhaust connected with the larger or exhaust ends of the cylinders, a motive-fluid chest at the smaller or outer end of each of the cylinders, a supply-main connected with the motive fluid, a branch pipe leading from each of the motivelluid chests to the supply-main, a three-way valve in said supply-main and controlling the fluid -supply to either of said branch pipes and motive-fluid chests, a rotaryshaft extending centrally in each of the cylinders, a piston in each of the cylinders and fixed to the rotary shaft, the outer surfaces of the pistons forming with the inner surfaces of the cylinders two oppositely-arranged annular chambers of gradually-increasing cross-sectional area, helical ribs on each of the pistons extending to the inner surfaces of the cylinders and forming therewith helical passages of gradually-increasing cross-sectional area and baffle-posts on the pistons between the helical ribs and in the passages.
11. A reversible rotary motor comprising two cylinders of gradually-increasing bore and whose larger or exhaust ends abut each other, a partition interposed between the larger or exhaust ends of the cylinders, and partially closing coinniunicatitm between the ends of the cylinders, a common exhaust con nected with the larger or exhaust ends of the cylinders, a motivefiuid chest at the smaller or outer end of each of the cylinders, a removable nozzle-ring interposed between each of the motive-fluid chests and the smaller end of the cylinders, injector-openingsin the nozzle-rings, a supply-main connected with the motive fluid, a branch pipe leading from each of the motive-fluid chests to the supply-main,
a three-way valve in said supply-main and each of the pistons extending to the inner surfaces of the cylinders and forming therewith helical passages of gradually-increasing crosssectional area and baffle-posts on the pistons between the helical ribs and in the passages.
In testimony whereof I affix my signature in presence of two witnesses.
CHARLES V. KERR.
Witnesses:
WM. D. APPLEBEE, V. R. BRUCE.
US22594604A 1904-09-26 1904-09-26 Compound steam-turbine. Expired - Lifetime US799062A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US22594604A US799062A (en) 1904-09-26 1904-09-26 Compound steam-turbine.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US22594604A US799062A (en) 1904-09-26 1904-09-26 Compound steam-turbine.

Publications (1)

Publication Number Publication Date
US799062A true US799062A (en) 1905-09-12

Family

ID=2867550

Family Applications (1)

Application Number Title Priority Date Filing Date
US22594604A Expired - Lifetime US799062A (en) 1904-09-26 1904-09-26 Compound steam-turbine.

Country Status (1)

Country Link
US (1) US799062A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2637488A (en) * 1946-06-13 1953-05-05 Fredric Flader Inc Compressor
US2643091A (en) * 1950-02-11 1953-06-23 James H Edwards Turbine heater
US2663541A (en) * 1950-09-11 1953-12-22 Ind Devices Inc Hydraulic motor

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2637488A (en) * 1946-06-13 1953-05-05 Fredric Flader Inc Compressor
US2643091A (en) * 1950-02-11 1953-06-23 James H Edwards Turbine heater
US2663541A (en) * 1950-09-11 1953-12-22 Ind Devices Inc Hydraulic motor

Similar Documents

Publication Publication Date Title
US799062A (en) Compound steam-turbine.
US559324A (en) I t dyer
US768884A (en) Rotary engine.
US845622A (en) Gas turbine-engine.
US824113A (en) Turbine-engine.
US646024A (en) Fluid-pressure engine.
US979735A (en) Turbine.
US1597542A (en) Motor
US987842A (en) Elastic-fluid turbine.
US717059A (en) Turbine-engine.
US511964A (en) Rotary engine
US388379A (en) Rotary engine
US601916A (en) Rotary engine
US762453A (en) Elastic-fluid turbine.
US831558A (en) Steam-turbine.
US1063537A (en) Engine.
US640269A (en) Rotary engine.
US550328A (en) Rotary engine
US802453A (en) Steam-turbine.
US716791A (en) Rotary motor.
US912061A (en) Steam-turbine.
US820447A (en) Rotary engine.
US705457A (en) Rotary motor.
US694101A (en) Rotary engine.
US784172A (en) Rotary fluid-pressure motor.