US1498783A - Aquatic propeller - Google Patents
Aquatic propeller Download PDFInfo
- Publication number
- US1498783A US1498783A US564824A US56482422A US1498783A US 1498783 A US1498783 A US 1498783A US 564824 A US564824 A US 564824A US 56482422 A US56482422 A US 56482422A US 1498783 A US1498783 A US 1498783A
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- United States
- Prior art keywords
- propeller
- vanes
- water
- angle
- around
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- 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.)
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H1/00—Propulsive elements directly acting on water
- B63H1/02—Propulsive elements directly acting on water of rotary type
- B63H1/12—Propulsive elements directly acting on water of rotary type with rotation axis substantially in propulsive direction
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H1/00—Propulsive elements directly acting on water
- B63H1/02—Propulsive elements directly acting on water of rotary type
- B63H1/12—Propulsive elements directly acting on water of rotary type with rotation axis substantially in propulsive direction
- B63H2001/122—Single or multiple threaded helicoidal screws, or the like, comprising foils extending over a substantial angle; Archimedean screws
Definitions
- My invention relates generally to aquatic propellers and has for its main object to provide a propeller with. greatest efiiciency at all distances from the aXillar center.
- Another object is to provide spiral-helical vanes constructed around a streamlined body portion, this body portion being so streamlined that it will pass through the water at relatively high velocities affording the least possible resistances.
- Another object is to provide a propeller having the greatest possible strength and highest possible efficiency involving the least amount of head resistances as the propeller passes through the water and the greatest possible and proportional strength to withstand peripheral velocities and directional thrust.
- Another object is to provide a propeller which will gradually take hold of the water stream from. a position immediately adjacent and surrounding the axillar center and by the gradual increasing of the angle of incidence of the vanes constructed around the body portion, as the distance from the longitudinal center is increased, the propeller will be able to gradually take hold of the water and derive therefrom the highest and most efiicient thrust with the least molecular disturbance of the water by violent and in definite motions such as eddies and reverse currents.
- Another object is to provide a propeller construction whereby the thrust exerted upon the body portion will be gradually increased until. the point of highest efhciency and high peripheral speed is reached and then, as the propeller passes through the water, and as the diameter of the body portion is reduced, the spiral vanes will gradually yield up their hold on the water and thereby permit the said water to pass backwardly therefrom with the least disturbance.
- Another object of the propeller is to obviate with the head resistances involved the present type of blade propellers, a re-- sistance which inother types of propellers, increases proportionately as the. velocities increase.
- Figure 1 is a side elevational view of the propeller having acircular body of an ichthyoidal profile and the spiral-helical vanes'entwined around the same.
- Figure 2 is an end view of the propeller as shown in Figure 1.
- Figure 3 is a schematic view of the adaptation of the propeller to a motorboat.
- a motorboat body 1 having an engine 2 arranged therein, as shown, with suitable controls 3 for starting the engine, as shown. by lever 3, and a means of operating rudder 4 through control. wheel 5 whereby the said craft may be guided through. the water.
- shaft-'6 is rotated to which universal joint 7 is con nected and rotatably arranged.
- shaft 8 is connected, the said shaft 8 being journaled on bearing 9within the body of the motorboat hull 1 as shown in Figure 3.
- spiral-helical vanes 11 find their beginning at point C as shown in Figures it and 2 coinciding with shaft 8, from which point the vanes are gradually increased in size as well as being increased in their angle as the distance from the longitudinal cen ter of the ichthyoidal body is increased until the angle of incidence at, or near, the central portion of the propeller beiomes relatively great as the peripheral motions; thereat, become relatively great, from which position the said vanes toaclrwardly progress and finally t-e t ll rminate at poin. in reduced dimensions corresponding to the beginning at point C.
- blades may be con structed upon and around the said body.
- an aquatic propeller the combination; a body, the said body being of ichthyoidal profile and circular in crosssection; and spiral-helical vanes having their beginnings parallel with the longi tndinal axis of the said body, thence progressing bacliwardly and outwardly around and upon the said body as their angle of incidence increases as the diameter of the said body increases until the greatest diameter of body and angle of incidence of the said vanes are attained, thence the said vanes retrograde as the diameter of body de creases and the angle of incidence of the vanes decreases until the said vanes terminate near and parallel with the longitudinal axis.
- the said propeller body having a circular transverse axis and of ichthyoidal contour paralleling the longitudinal axis, spiral-helical vanes constructed around the said body, the said vanes having their angle of incidence grad ually changed with reference to the said longitudinal axis and with reference to the normal line of progression of the said propeller through the water, the angularity of the said vanes being arranged according to the relative peripheral velocity of the said vanes as the propeller is rotated transversely to the normal line of progress through the water.
- an aquatic propeller in an aquatic propeller, the combination of; an elongated body of ichthyoidal contour, the longitudinal axis of the said body being disposed parallel with the line of progression through the water; and spiro-helical vanes constructed upon the said body, the said vanes having their beginnings forwardly arranged with respect to the said body and relatively adjacent to, and on a plane parallel with, the longitudinal axis of the said body, from thence they recede backwardly on, and progress outwardly around, the said body until they terminate backwardly at, relatively near, and on a plane coinciding with, the longitudinal of the said body, the said vanes having their angle of incidence gradually changed with reference to the longitudinal axis of the said body as they outwardly progress around the same until they acquire th ir incidence on the line of the greatest diameter or the said body, substantially as shown.
- an aquatic propeller the combination of; an elongated body of a relatively ichthyoidal contour and circular in cross section; and vanes of relatively spirohelical contour constructed on and around the said body, the said vanes having their beginnings parallel with the longitudinal axis of the said body and forwardly thereon and relatively near the said axis thereof, from thence the said vanes retrograde outwardly with, upon and around, the said body and terminate backwardly at, relatively near and on a plane coinciding with,
Description
June 24 1.924. 1498,7813 I D. N. CLARK AQUATIC PROPELLER Filed May 31, 1922 I N V EN TOR.-
Patented June 24, 1924 ENHTE STATES DANIEL N. CLARK, OF LOS ANGELES, CALIFORNIA AQUATIC PROPELLER.
Application filed "May 31, 1922.
To all whom it may concern:
Be it known that I, DANIEL N. CLARK, a citizen of the United States of America, a resident of Los Angeles, in the county of Los Angeles, State of'california, have invented. anew and useful Improvement in Aquatic Propellers, of which the following, when read with reference to the accompanying drawings, is such a full, clear, and exact specificationv embodying the invention in its preferred form as will enable others skilled in the art to which it appertains to make and use the same.
My invention relates generally to aquatic propellers and has for its main object to provide a propeller with. greatest efiiciency at all distances from the aXillar center.
Another object is to provide spiral-helical vanes constructed around a streamlined body portion, this body portion being so streamlined that it will pass through the water at relatively high velocities affording the least possible resistances.
Another object is to provide a propeller having the greatest possible strength and highest possible efficiency involving the least amount of head resistances as the propeller passes through the water and the greatest possible and proportional strength to withstand peripheral velocities and directional thrust.
Another object is to provide a propeller which will gradually take hold of the water stream from. a position immediately adjacent and surrounding the axillar center and by the gradual increasing of the angle of incidence of the vanes constructed around the body portion, as the distance from the longitudinal center is increased, the propeller will be able to gradually take hold of the water and derive therefrom the highest and most efiicient thrust with the least molecular disturbance of the water by violent and in definite motions such as eddies and reverse currents.
Another object is to provide a propeller construction whereby the thrust exerted upon the body portion will be gradually increased until. the point of highest efhciency and high peripheral speed is reached and then, as the propeller passes through the water, and as the diameter of the body portion is reduced, the spiral vanes will gradually yield up their hold on the water and thereby permit the said water to pass backwardly therefrom with the least disturbance.
Serial no. 564,824;
Another object of the propeller is to obviate with the head resistances involved the present type of blade propellers, a re-- sistance which inother types of propellers, increases proportionately as the. velocities increase.
In other types of propellers, as the velocities increase, the head resistances increase at the expense of the efficiency of the propeller and thereby rapidly reach a definite and positive limit beyond which it is impossible to get any additional forward thrust regardless of the engine power exerted in the rotation of such blade propellers, whereas; in the present ty e of propeller a constant relation is estab ished between the engine power expended and the thrust and. efficiency derived therefrom, since itlean be readily understood that the streamlined proportions of the central body thereof can: be designed according to its displacement andthe desired velocity through the Water. 7
Having thus described generally the objects of m invention, though-it will be understood t at I am not limiting myself to the objects as thus enumerated since other objects will be apparent from the accompanying drawings which form an essential part of this specification. V
Figure 1 is a side elevational view of the propeller having acircular body of an ichthyoidal profile and the spiral-helical vanes'entwined around the same.
Figure 2 is an end view of the propeller as shown in Figure 1.
Figure 3 is a schematic view of the adaptation of the propeller to a motorboat.
In carrying out my invention as shown in the accompanying drawings in its preferred adaptation, a motorboat body 1 is provided having an engine 2 arranged therein, as shown, with suitable controls 3 for starting the engine, as shown. by lever 3, and a means of operating rudder 4 through control. wheel 5 whereby the said craft may be guided through. the water. By the operation of engine 2, shaft-'6 is rotated to which universal joint 7 is con nected and rotatably arranged. To universal joint 7 shaft 8 is connected, the said shaft 8 being journaled on bearing 9within the body of the motorboat hull 1 as shown in Figure 3. Said shaft S-eXtends backwardly and becomes the ax'illar center of the circular propeller body 10 of ichthyoida-l profile, as shown in all figures.-
Around this ichthyoidal body 10 spiral vanes 11 are arranged. The; rear end the icht-hyoidal body of the propeller, by means of shaft 8, is journaled in a bearing provided in brace 12, as shown in Figure 3.
Now it will be seen in operation, after engine 2 is started and by suitable mechanical means through control 3, shaft cl is rotated carrying universal joint 7 and shaft 8 extending through bearing 9, pro peller body 10 is rotated carryin fiVltil it the spiral-helical vanes 11. As the said propeller vanes 11 impinge upon the water in an angular position and rotate clock wise, as shown by arrow A in Figure L5, as seen from the stern of the motorboat, as shown in Figure 1, the said vanes will produce a thrust which will propel the motorboat through the water in the direction indicated by arrow B.
Now it will be understood that various changes may be made in the size, relative shape of the body of the propeller and in the relative angle of the spiral-helical arranged thereon.
It will, of course, be noticed that the spiral-helical vanes 11 find their beginning at point C as shown in Figures it and 2 coinciding with shaft 8, from which point the vanes are gradually increased in size as well as being increased in their angle as the distance from the longitudinal cen ter of the ichthyoidal body is increased until the angle of incidence at, or near, the central portion of the propeller beiomes relatively great as the peripheral motions; thereat, become relatively great, from which position the said vanes toaclrwardly progress and finally t-e t ll rminate at poin. in reduced dimensions corresponding to the beginning at point C. Thus it will be seen that by the rotation of the said pro peller the vanes will gradually take hold of the waterstreani as the said water-stream moves backwardly along the contour thereof until the central portion of the ichthy oidal body is reached, from which point there is a gradual recession as well as :i gradual reduction of the angle of incidents: of the said vanes with respect to the normal line of progression through the water and the longitudinal axis of the said propeller,
Of course it will be understood that vari-- ous changes may be made in the relative arrangement, collocation and coordination of parts without departing from the spii't of this invention. it will also be understood that various shapes may be adapted as well as various angles of incidence at quired in the spirahhelical vanes around the ichthyoidal body of the said propeller whereby either the dimensions of thespiral Vance at both the forward apex, as Well as the rear apex, of the said propeller, or at the central portion thereof, are increased in dimensions as well as the angle of in cidence of the said spiral-helical vanes so as to compensate for the peripheral velocity of the propeller at, on, or near the most eflicient pitchline involving the greatest peripheral velocity.
Of course it is understood that this propeller is readily adaptable to any type ct water craft of any dimensions from motorboat to that of the commercial leviathan.
It is also to be understood that instead of spiral-helical vanes, blades may be con structed upon and around the said body.
Having thus described my invention in its preferred form, though Without limiting myself to this particular form of adaptation or to the arrangement, collocation or coordination of parts, what I claim and for which i desire to secure Letters Patent are as follows:
1. In an aquatic propeller, the combination; a body, the said body being of ichthyoidal profile and circular in crosssection; and spiral-helical vanes having their beginnings parallel with the longi tndinal axis of the said body, thence progressing bacliwardly and outwardly around and upon the said body as their angle of incidence increases as the diameter of the said body increases until the greatest diameter of body and angle of incidence of the said vanes are attained, thence the said vanes retrograde as the diameter of body de creases and the angle of incidence of the vanes decreases until the said vanes terminate near and parallel with the longitudinal axis.
2, In an aquatic propeller the combination of an ichthyoidal body, spiral-helical vanes constructed around the said body, the said vanes having their beginning in re duced dimensions adjacent to the forward apex of the said body around the longitudinal axis thereof and thereat, thence gradually outwardly and backwardly progressing around the said body and during these progressions the said vanes change in their angle of incidence with respect to the longitudinal axis thereof by having said angle increased as the distance from the longitudinal axis is increased until the said vanes reach their maximum distance from the longitudinal axis near the central portion of the said body, from thence the said angle of incidence is gradually reduced until the said vanes finally terminate at the rear of the said propeller body at and adjacent to the longitudinal center thereof.
3. In a water-craft the combination of aquatic propeller rotatably mounted and operatively arranged with an engine carried by the said watercraft, the said propeller having a body element of circular dimension in cross section and of ichthyoidal contour, with spiral-helical vanes constructed around the said body and arranged to rotate therewith, the said vanes having their beginning on lines paralleling the longitudinal axis of the said body, from thence they progress outwardly with and around the contour of the said body and during these progressions the said vanes have their angle of incidence gradually increased with respect to the normal line of progression of the propeller through the water until th said vanes become adjacent to the suriace of the said propeller body acquiring their greatest peripheral motion resulting from the rotation thereof at which point the angle of incidence of the said vanes with respect to the Said longitudinal axis acquire their greatest inclination, from thence there is a gradual and corresponding recession of the said vanes and a conconiitant reduction in their angularity until they finally terminate at the rear of the said body.
l. In an aquatic propeller operatively and rotatably mounted in a water-craft, the said propeller body having a circular transverse axis and of ichthyoidal contour paralleling the longitudinal axis, spiral-helical vanes constructed around the said body, the said vanes having their angle of incidence grad ually changed with reference to the said longitudinal axis and with reference to the normal line of progression of the said propeller through the water, the angularity of the said vanes being arranged according to the relative peripheral velocity of the said vanes as the propeller is rotated transversely to the normal line of progress through the water.
5. in an aquatic propeller, the combination of; an elongated body of ichthyoidal contour, the longitudinal axis of the said body being disposed parallel with the line of progression through the water; and spiro-helical vanes constructed upon the said body, the said vanes having their beginnings forwardly arranged with respect to the said body and relatively adjacent to, and on a plane parallel with, the longitudinal axis of the said body, from thence they recede backwardly on, and progress outwardly around, the said body until they terminate backwardly at, relatively near, and on a plane coinciding with, the longitudinal of the said body, the said vanes having their angle of incidence gradually changed with reference to the longitudinal axis of the said body as they outwardly progress around the same until they acquire th ir incidence on the line of the greatest diameter or the said body, substantially as shown.
6. In an aquatic propeller, the combination of; an elongated body of a relatively ichthyoidal contour and circular in cross section; and vanes of relatively spirohelical contour constructed on and around the said body, the said vanes having their beginnings parallel with the longitudinal axis of the said body and forwardly thereon and relatively near the said axis thereof, from thence the said vanes retrograde outwardly with, upon and around, the said body and terminate backwardly at, relatively near and on a plane coinciding with,
DANIEL N. CLARK.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US564824A US1498783A (en) | 1922-05-31 | 1922-05-31 | Aquatic propeller |
Applications Claiming Priority (1)
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US564824A US1498783A (en) | 1922-05-31 | 1922-05-31 | Aquatic propeller |
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US1498783A true US1498783A (en) | 1924-06-24 |
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US564824A Expired - Lifetime US1498783A (en) | 1922-05-31 | 1922-05-31 | Aquatic propeller |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4575256A (en) * | 1983-09-19 | 1986-03-11 | Envirotech Corporation | Ragless propeller draft tube mixer |
US4647215A (en) * | 1983-09-19 | 1987-03-03 | Envirotech Corporation | Ragless propeller draft tube mixer |
US20140271196A1 (en) * | 2013-03-15 | 2014-09-18 | John Ioan Restea | Apparatus for propelling fluid, especially for propulsion of a floating vehicle |
-
1922
- 1922-05-31 US US564824A patent/US1498783A/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4575256A (en) * | 1983-09-19 | 1986-03-11 | Envirotech Corporation | Ragless propeller draft tube mixer |
US4647215A (en) * | 1983-09-19 | 1987-03-03 | Envirotech Corporation | Ragless propeller draft tube mixer |
US20140271196A1 (en) * | 2013-03-15 | 2014-09-18 | John Ioan Restea | Apparatus for propelling fluid, especially for propulsion of a floating vehicle |
JP2016513600A (en) * | 2013-03-15 | 2016-05-16 | ジョン ヨアン レスティー、 | Devices for propelling fluids, especially for propelling floating vehicles |
AU2014237041B2 (en) * | 2013-03-15 | 2018-02-01 | John Ioan RESTEA | Apparatus for propelling fluid, especially for propulsion of a floating vehicle |
US10252784B2 (en) * | 2013-03-15 | 2019-04-09 | John Ioan Restea | Apparatus for propelling fluid, especially for propulsion of a floating vehicle |
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