US1961114A - Ship's propeller - Google Patents

Ship's propeller Download PDF

Info

Publication number
US1961114A
US1961114A US629550A US62955032A US1961114A US 1961114 A US1961114 A US 1961114A US 629550 A US629550 A US 629550A US 62955032 A US62955032 A US 62955032A US 1961114 A US1961114 A US 1961114A
Authority
US
United States
Prior art keywords
boss
blade
aperture
propeller
blades
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
US629550A
Inventor
Tully Edward Ernest
Lovis William
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
Application granted granted Critical
Publication of US1961114A publication Critical patent/US1961114A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H1/00Propulsive elements directly acting on water
    • B63H1/02Propulsive elements directly acting on water of rotary type
    • B63H1/12Propulsive elements directly acting on water of rotary type with rotation axis substantially in propulsive direction
    • B63H1/14Propellers
    • B63H1/28Other means for improving propeller efficiency

Definitions

  • Our invention relates to ships propellers of the type having curved water conducting passages extending through the metal of which the propeller is formed from inlets at or in the blades to outlets in the rear end of the boss, such passages being generally formed right-handed for right handed propellers, and left-handed for left handed propellers.
  • the main inlet to each passage has been formed at the root of the blade, with a supplementary or feeding inlet located some distance up the blade, say, at about a third of the length of the blade.
  • propellers give improved results over the old style of solid blade propeller and the object of this invention is to still further improve the chioiency of this type of propeller and to that end it consists in dispensing with the inlet at the root of the blade and providing two or more inlets arranged at suitably spaced distances along the radial length of the blade, and soshaped and arranged that they give better results than hitherto.
  • the invention further consists in providing means for ensuring a maximum supply of water to the blade by forming a channel in each of the blades which discharges waterin the vicinity of the aperture and increases the effectiveness of the passage which discharges at the rear of the boss.
  • FIG. 1 being an elevation
  • Fig. 2 an enlarged sectional view through one of the blades.
  • the blades 1 are each provided with apertures 2 formed in the rear side or working face of the blades at a point approximately one third of the distance between the root and the tip of the blade.
  • These apertures are substantially oval and are arranged with their major axes at a substantial angle preferably from to to a radius through the axis of the boss 3 instead of being at right angles to such a radius as hitherto.
  • apertures 2 connect apertures 2 with outlets 5 in the rear of the boss.
  • apertures 6 are also oval in shape and have their major axes at an angle to the normal, preferably parallel to the major axes of the apertures 2. Apertures 6 also communicate with the passages 4 in the propeller blade.
  • passages 4 feed water from the vicinity of apertures 2 and 6 to the space at the rear of boss 3, thereby preventing cavitation at the rear of the boss 3. A considerable volume of water is moved through passages 4 which produces a tendency toward cavitation in the vicinity so of the apertures 2 and 6, decreasing the effective ness of the propeller and also decreasing the effectiveness of passages 4.
  • passages 4 we provide in the leading or cutting edge of the blade a number of channels 7, (Fig. 2) extending from the forward to the rear side of the blade in the vicinity of apertures 2; these channels '7 preferably do not extend directly through the thickness of the blade, but are inwardly curved or crescent shaped, so that the water passing through them from the for-ward side of the blade is directed by the curvature of the channels so that it impinges against the curved rear surface of the blade and still further prevents cavitation.
  • the passages i are made more effective and the performance of the propeller improved. While 30 we have illustrated a preferred form of channel, any channel may be used which cooperates with the passage i by discharging water in the vicinity of the apertures 2 or 6.
  • aperture 2 While we have shown the aperture 2 as being 35 located substantially centrally oi the blade this is not a necessary limitation. In the illus trated embodiment applicantsinventioh is shown as applied to a propeller having a working face curved in a transverse direction but it will be 99 readily understood that the invention is also applicable to propellers having a substantially flat working face.
  • a propeller including a plurality of blades mounted on boss, a passage within each blade and the boss extending from an aperture in the working face of the blade to an opening at the rear of the boss, the leading edge of the aperture in the blade being at a distance from the axis of the boss substantially less than that of the trailing edge of the aperture whereby the effectiveness of the aperture is increased.
  • a propeller the combination of a boss, a plurality of blades mounted on said boss, each of the blades having an aperture formed in the working face thereof, the aperture being substantially oval in shape and having its major axis lying at a substantial angle to a radius through the axis of the boss and an internal passage formed in the blade and boss communicating with said aperture and having an outlet at the rear of said boss.
  • a propeller the combination of a boss, a plurality of blades each having a working face and mounted on said boss, each of the blades having a substantially oval aperture formed therein intermediate the root and the tip, said aperture being positioned angularly with respect to a radius through the axis of the boss to take advantage of the head due to the relative velocity between the fluid and the blade to force the fluid through said passage, an internal passage formed in the blade communicating with said aperture, an opening in the rear of the boss and a passage formed in the blade communicating with said opening and with the passage in the blade.
  • a propeller the combination of a boss, a plurality of blades mounted on said boss, each of the blades having an aperture formed in the working face thereof the aperture being substantially oval in shape and having its major axis lying substantially at an angle of from 35 to 45 to a radius through the axis of the boss, an internal passage formed in the blade communicating with said aperture, an opening in the rear of the boss and a passage formed in the boss communicating with the passage formed in the blade and with the opening in the rear of the boss.
  • a propeller the combination of a boss, a plurality of blades mounted on said boss, each blade having an aperture in it intermediate the root and the tip, an internal passage formed in the blade and boss communicating with the aperture and having an opening at the rear of the boss, and a curved channel formed in the blade having an entrance near the leading edge of the blade and an exit on the rear of the blade in the vicinity of said aperture.
  • a propeller the combination of a boss, a plurality of blades mounted on said boss, each blade having an aperture in it intermediate the root and the tip, an internal passage formed in the blade communicating with the aperture, an opening at the rear of the boss, a passage formed in the boss communicating with the passage formed in the blade and with the opening formed in the rear of the boss and a curved channel formed in the blade having its entrance near the leading edge of the blade and its exit on the rear of the blade in the vicinity of said aperture.
  • a propeller including a plurality of blades mounted on a boss, a passage within each blade and the boss extending from an aperture in the blade to an opening at the rear of the boss, a
  • a propeller including a plurality of blades mounted on a boss, a passage within each blade and the boss extending from an aperture in the blade to an opening at the rear of the boss, said passage discharging water at the rear of the boss to prevent cavitation, a channel formed in the blade having an outlet in the vicinity of said aperture to feed water to the vicinity of said aperture and thereby render said passage more effective.
  • a propeller the combination of a boss, a plurality of blades mounted on said boss, a passage formed in each of said blades and leading from a plurality of apertures in the working face of each of said blades to an opening at the rear of the boss, said apertures being substantially oval in shape and having their major axes inclined at an angle of from 35 to 45 to a radius through the axis of the boss.
  • a propeller the combination of a boss, a plurality of blades mounted on said boss, each of the blades having an aperture formed in the working face thereof, the aperture being substantially oval in shape and having its major axis lying at a substantial angle to a radius through the axis of the boss so that the projected area upon a plane normal to a second plane passing through the edges of the blade is greater than the projected area of a like aperture symmetrically located with respect to the same radius, and an internal passage formed in the blade and communicating with said aperture and having an outlet at the rear of said boss.
  • a propeller the combination of a boss, a plurality of blades, each having a Working face curving transversely toward the leading edge and mounted on said boss, each of the blades having a substantially oval aperture formed at least partially in said curved portion of said face intermediate the root and the tip, said aperture being positioned angularly with respect to a radius through the axis of the boss to take advantage of the head due to the relative velocity between the fluid and the blade to force the fluid through said aperture, an internal passage formed in the blade communicating with said aperture, an opening in the rear of the boss and a passage formed in the blade communicating with said opening and with the passage in the blade.
  • a propeller the combination of a boss, a pluarlity of blades mounted on said boss, each having a working face curved transversely toward the leading and trailing edges respectively with a substantially oval aperture formed therein, said aperture having its major axis lying at a substantial angle to a radius through the axis of the boss, and being located substantially centrally of the width of the blade and an internal passage formed in the blade and boss communicating with said aperture and having an outlet at the rear of said boss.

Landscapes

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

Description

May 29, 1934.
E. E. TULLY El AL 1,961,114
SHIPS PROPELLEH Filed Aug. 19. 1932 INVENTORS EDWARD ERNEST TULLY BY fin WILLIAM 5 5 Patented May 29, 1934 earns orrice SHIPS PROPELLER Edward Ernest Tully, Lower Bebington, Birkenhead, and William Levis, Upton Park, London,
England Application August 19,
1932, Serial No. 629,550
In Great Britain February 8, 1932 12 Claims.
Our invention relates to ships propellers of the type having curved water conducting passages extending through the metal of which the propeller is formed from inlets at or in the blades to outlets in the rear end of the boss, such passages being generally formed right-handed for right handed propellers, and left-handed for left handed propellers.
As heretofore constructed, the main inlet to each passage has been formed at the root of the blade, with a supplementary or feeding inlet located some distance up the blade, say, at about a third of the length of the blade.
Such propellers give improved results over the old style of solid blade propeller and the object of this invention is to still further improve the chioiency of this type of propeller and to that end it consists in dispensing with the inlet at the root of the blade and providing two or more inlets arranged at suitably spaced distances along the radial length of the blade, and soshaped and arranged that they give better results than hitherto. The invention further consists in providing means for ensuring a maximum supply of water to the blade by forming a channel in each of the blades which discharges waterin the vicinity of the aperture and increases the effectiveness of the passage which discharges at the rear of the boss.
The accompanying drawing illustrates a propeller constructed according to our invention, Fig. 1 being an elevation and Fig. 2 an enlarged sectional view through one of the blades.
In the drawing, the blades 1 are each provided with apertures 2 formed in the rear side or working face of the blades at a point approximately one third of the distance between the root and the tip of the blade. These apertures are substantially oval and are arranged with their major axes at a substantial angle preferably from to to a radius through the axis of the boss 3 instead of being at right angles to such a radius as hitherto. By so placing these apertures, the
head due to the relative velocity between the blade and fluid is effectively used to increase the flow through passages 4 which connect apertures 2 with outlets 5 in the rear of the boss. At a point preferably about mid-way between the apertures 2 and the boss we provide a further set of apertures 6 in each blade. These are also oval in shape and have their major axes at an angle to the normal, preferably parallel to the major axes of the apertures 2. Apertures 6 also communicate with the passages 4 in the propeller blade.
The passages 4 feed water from the vicinity of apertures 2 and 6 to the space at the rear of boss 3, thereby preventing cavitation at the rear of the boss 3. A considerable volume of water is moved through passages 4 which produces a tendency toward cavitation in the vicinity so of the apertures 2 and 6, decreasing the effective ness of the propeller and also decreasing the effectiveness of passages 4.
With the object of insuring a maximum supply of water to the blades and also of increasing 65. the effectiveness of passages 4, we provide in the leading or cutting edge of the blade a number of channels 7, (Fig. 2) extending from the forward to the rear side of the blade in the vicinity of apertures 2; these channels '7 preferably do not extend directly through the thickness of the blade, but are inwardly curved or crescent shaped, so that the water passing through them from the for-ward side of the blade is directed by the curvature of the channels so that it impinges against the curved rear surface of the blade and still further prevents cavitation. By increasing the water supply in the vicinity of apertures'Z the passages i are made more effective and the performance of the propeller improved. While 30 we have illustrated a preferred form of channel, any channel may be used which cooperates with the passage i by discharging water in the vicinity of the apertures 2 or 6.
While we have shown the aperture 2 as being 35 located substantially centrally oi the blade this is not a necessary limitation. In the illus trated embodiment applicantsinventioh is shown as applied to a propeller having a working face curved in a transverse direction but it will be 99 readily understood that the invention is also applicable to propellers having a substantially flat working face.
With a propeller constructed as above described we find that we can obtain greater ship speed with the same engine and that vibration is very considerably reduced owing to the smoother thrust action obtained. Cavitation is almost entirely eliminated even at speeds in excess of those normally used.
Although this invention has been described as applied to marine propellers it is not limited to such use as it is applicable to propellers for other purposes.
What we claim is:- i
1. A propeller including a plurality of blades mounted on boss, a passage within each blade and the boss extending from an aperture in the working face of the blade to an opening at the rear of the boss, the leading edge of the aperture in the blade being at a distance from the axis of the boss substantially less than that of the trailing edge of the aperture whereby the effectiveness of the aperture is increased.
2. In a propeller the combination of a boss, a plurality of blades mounted on said boss, each of the blades having an aperture formed in the working face thereof, the aperture being substantially oval in shape and having its major axis lying at a substantial angle to a radius through the axis of the boss and an internal passage formed in the blade and boss communicating with said aperture and having an outlet at the rear of said boss.
3. In a propeller the combination of a boss, a plurality of blades each having a working face and mounted on said boss, each of the blades having a substantially oval aperture formed therein intermediate the root and the tip, said aperture being positioned angularly with respect to a radius through the axis of the boss to take advantage of the head due to the relative velocity between the fluid and the blade to force the fluid through said passage, an internal passage formed in the blade communicating with said aperture, an opening in the rear of the boss and a passage formed in the blade communicating with said opening and with the passage in the blade.
4. In a propeller the combination of a boss, a plurality of blades mounted on said boss, each of the blades having an aperture formed in the working face thereof the aperture being substantially oval in shape and having its major axis lying substantially at an angle of from 35 to 45 to a radius through the axis of the boss, an internal passage formed in the blade communicating with said aperture, an opening in the rear of the boss and a passage formed in the boss communicating with the passage formed in the blade and with the opening in the rear of the boss.
5. In a propeller the combination of a boss, a plurality of blades mounted on said boss, each blade having an aperture in it intermediate the root and the tip, an internal passage formed in the blade and boss communicating with the aperture and having an opening at the rear of the boss, and a curved channel formed in the blade having an entrance near the leading edge of the blade and an exit on the rear of the blade in the vicinity of said aperture.
6. In a propeller the combination of a boss, a plurality of blades mounted on said boss, each blade having an aperture in it intermediate the root and the tip, an internal passage formed in the blade communicating with the aperture, an opening at the rear of the boss, a passage formed in the boss communicating with the passage formed in the blade and with the opening formed in the rear of the boss and a curved channel formed in the blade having its entrance near the leading edge of the blade and its exit on the rear of the blade in the vicinity of said aperture.
7. A propeller including a plurality of blades mounted on a boss, a passage within each blade and the boss extending from an aperture in the blade to an opening at the rear of the boss, a
channel formed in the blade having its entrance on the forward side of the blade and its exit on the rear of the blade in the vicinity of said aperture.
8. A propeller including a plurality of blades mounted on a boss, a passage within each blade and the boss extending from an aperture in the blade to an opening at the rear of the boss, said passage discharging water at the rear of the boss to prevent cavitation, a channel formed in the blade having an outlet in the vicinity of said aperture to feed water to the vicinity of said aperture and thereby render said passage more effective.
9. In a propeller the combination of a boss, a plurality of blades mounted on said boss, a passage formed in each of said blades and leading from a plurality of apertures in the working face of each of said blades to an opening at the rear of the boss, said apertures being substantially oval in shape and having their major axes inclined at an angle of from 35 to 45 to a radius through the axis of the boss.
10. In a propeller the combination of a boss, a plurality of blades mounted on said boss, each of the blades having an aperture formed in the working face thereof, the aperture being substantially oval in shape and having its major axis lying at a substantial angle to a radius through the axis of the boss so that the projected area upon a plane normal to a second plane passing through the edges of the blade is greater than the projected area of a like aperture symmetrically located with respect to the same radius, and an internal passage formed in the blade and communicating with said aperture and having an outlet at the rear of said boss.
11. In a propeller the combination of a boss, a plurality of blades, each having a Working face curving transversely toward the leading edge and mounted on said boss, each of the blades having a substantially oval aperture formed at least partially in said curved portion of said face intermediate the root and the tip, said aperture being positioned angularly with respect to a radius through the axis of the boss to take advantage of the head due to the relative velocity between the fluid and the blade to force the fluid through said aperture, an internal passage formed in the blade communicating with said aperture, an opening in the rear of the boss and a passage formed in the blade communicating with said opening and with the passage in the blade.
12. In a propeller the combination of a boss, a pluarlity of blades mounted on said boss, each having a working face curved transversely toward the leading and trailing edges respectively with a substantially oval aperture formed therein, said aperture having its major axis lying at a substantial angle to a radius through the axis of the boss, and being located substantially centrally of the width of the blade and an internal passage formed in the blade and boss communicating with said aperture and having an outlet at the rear of said boss.
EDWARD ERNEST TULLY. WILLIAM LOVIS.
US629550A 1932-02-08 1932-08-19 Ship's propeller Expired - Lifetime US1961114A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB1961114X 1932-02-08

Publications (1)

Publication Number Publication Date
US1961114A true US1961114A (en) 1934-05-29

Family

ID=10894678

Family Applications (1)

Application Number Title Priority Date Filing Date
US629550A Expired - Lifetime US1961114A (en) 1932-02-08 1932-08-19 Ship's propeller

Country Status (1)

Country Link
US (1) US1961114A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3044559A (en) * 1959-07-14 1962-07-17 Chajmik Joseph Propeller
US4714408A (en) * 1985-06-06 1987-12-22 Nissan Motor Co., Ltd. Radiator fan
US20020168266A1 (en) * 1999-05-21 2002-11-14 David Reinfeld Vortex attractor without a backplate
US20060201721A1 (en) * 2005-03-09 2006-09-14 New Scientific R&D Institute Inc. Rotary propeller
US20100129198A1 (en) * 2007-07-23 2010-05-27 Alstom Hydro France Hydraulic machine including means for injecting a flow drawn from a main flow
US8564147B1 (en) * 2010-09-20 2013-10-22 Johnny L. Sharp System for solar and wind energy collection with advanced blade design

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3044559A (en) * 1959-07-14 1962-07-17 Chajmik Joseph Propeller
US4714408A (en) * 1985-06-06 1987-12-22 Nissan Motor Co., Ltd. Radiator fan
US20020168266A1 (en) * 1999-05-21 2002-11-14 David Reinfeld Vortex attractor without a backplate
US20020182077A1 (en) * 1999-05-21 2002-12-05 David Reinfeld Vortex attractor with propellers
US6960063B2 (en) * 1999-05-21 2005-11-01 Vortexhc, Llc Vortex attractor without a backplate
US20060201721A1 (en) * 2005-03-09 2006-09-14 New Scientific R&D Institute Inc. Rotary propeller
US20100129198A1 (en) * 2007-07-23 2010-05-27 Alstom Hydro France Hydraulic machine including means for injecting a flow drawn from a main flow
US8591175B2 (en) * 2007-07-23 2013-11-26 Alstom Renewable Technologies Hydraulic machine including means for injecting a flow drawn from a main flow
US8564147B1 (en) * 2010-09-20 2013-10-22 Johnny L. Sharp System for solar and wind energy collection with advanced blade design

Similar Documents

Publication Publication Date Title
US5192193A (en) Impeller for centrifugal pumps
US3697193A (en) Fluidfoil section
US2780435A (en) Turbine blade cooling structure
US4609360A (en) Boat hull with flow chamber
US1961114A (en) Ship's propeller
JP2019526458A5 (en)
US1597175A (en) Propeller
US4836748A (en) Ring propeller
GB834811A (en) Cooled hollow turbine blades
KR830004110A (en) Ducts with propeller coupled to vessels with vane tip blockers
US3356151A (en) Marine propeller
US3757728A (en) Guide vane for suction side of marine jet propulsion system
US3974790A (en) Bottom for planing boats
US6193571B1 (en) Enhanced waterjet propulsor
JPH0232193B2 (en)
TW201712233A (en) Bird wing-shaped high pressure axial fan blade and rotating axial flow fan thereof
US3312286A (en) Surface propeller
US3937172A (en) Water jet propelling apparatus for boats
EP0200749B1 (en) Propellors for watercraft
US2104306A (en) Screw propeller
USRE33165E (en) Boat hull with flow chamber
US2567249A (en) Gas turbine
US1546554A (en) Screw propeller
JP2019043283A (en) Rotor blade and horizontal shaft-type rotor
ES349613A1 (en) Marine propeller