GB2301804A - Dual Propeller Marine Drive - Google Patents
Dual Propeller Marine Drive Download PDFInfo
- Publication number
- GB2301804A GB2301804A GB9616865A GB9616865A GB2301804A GB 2301804 A GB2301804 A GB 2301804A GB 9616865 A GB9616865 A GB 9616865A GB 9616865 A GB9616865 A GB 9616865A GB 2301804 A GB2301804 A GB 2301804A
- Authority
- GB
- United Kingdom
- Prior art keywords
- propeller shaft
- propeller
- driven gear
- aft
- marine drive
- 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.)
- Granted
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H23/00—Transmitting power from propulsion power plant to propulsive elements
- B63H23/32—Other parts
- B63H23/34—Propeller shafts; Paddle-wheel shafts; Attachment of propellers on shafts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H20/00—Outboard propulsion units, e.g. outboard motors or Z-drives; Arrangements thereof on vessels
- B63H20/14—Transmission between propulsion power unit and propulsion element
- B63H20/22—Transmission between propulsion power unit and propulsion element allowing movement of the propulsion element about at least a horizontal axis without disconnection of the drive, e.g. using universal joints
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H5/00—Arrangements on vessels of propulsion elements directly acting on water
- B63H5/07—Arrangements on vessels of propulsion elements directly acting on water of propellers
- B63H5/08—Arrangements on vessels of propulsion elements directly acting on water of propellers of more than one propeller
- B63H5/10—Arrangements on vessels of propulsion elements directly acting on water of propellers of more than one propeller of coaxial type, e.g. of counter-rotative type
-
- 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
- B63H1/14—Propellers
- B63H1/18—Propellers with means for diminishing cavitation, e.g. supercavitation
- B63H2001/185—Surfacing propellers, i.e. propellers specially adapted for operation at the water surface, with blades incompletely submerged, or piercing the water surface from above in the course of each revolution
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H23/00—Transmitting power from propulsion power plant to propulsive elements
- B63H23/32—Other parts
- B63H23/321—Bearings or seals specially adapted for propeller shafts
- B63H2023/323—Bearings for coaxial propeller shafts, e.g. for driving propellers of the counter-rotative type
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H23/00—Transmitting power from propulsion power plant to propulsive elements
- B63H23/32—Other parts
- B63H23/321—Bearings or seals specially adapted for propeller shafts
- B63H2023/327—Sealings specially adapted for propeller shafts or stern tubes
Landscapes
- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- Ocean & Marine Engineering (AREA)
- Shafts, Cranks, Connecting Bars, And Related Bearings (AREA)
- Gear Transmission (AREA)
Abstract
In a marine drive 10 having two counter-rotating propellers, inner and outer concentric counter-rotating propeller shafts 40, 42 are supported by a spool assembly 38 locked and retained against rotation and against axial movement in the lower horizontal bore 28 in the torpedo of the drive housing 26 by axially spaced left and right hand threads 44 and 46. A thrust bearing assembly 98 transfers thrust from the outer propeller shaft to the inner propeller shaft during rotation of the propeller shafts in opposite axial direction and is axially located between fore and aft driven gears 76 and 78. Propeller shaft sealing and bearing structure, and propeller self-centering mounting structure is provided.
Description
DUAL PROPELLER MARINE DRIVE
BACKGROUND AND SUMMP.RY The invention relates to a marine drive hang two counter-rotating surface operating propellers.
Various principles of the invention are also applicable to submerged-operation propellers.
The present invention arose during development efforts directed toward a marine drive enabling increased top end boat speed. This is achieved by raising the torpedo out of the water to reduce drag, and by using two counter-rotating surface operating propellers. Reducing torpedo drag by raising the torpedo above the surface of the water is known in the art, for example U.S. Patent 4,871,334, column 3, lines 35r.
In one aspect of the invention, simple, effective retaining structure is provided for holding the propeller-bearing-supporting spool in the horizontal bore of the torpedo fixed for non-rotation in each of the opposite rotational directions of the counter-rotating propellers. This prevents rotational loosening of the spool in each of the rotational directions as the propellers strike and pierce the surface of the water.
In another aspect, structure is provided to minimize shaft wobble tendency as the propellers strike and pierce the surface of the water.
In another aspect, a thrust bearing is provided which transfers thrust from a hollow outer propeller shaft to an inner counter-rotating concentric propeller shaft. The thrust bearing is located between fore and aft driven gears on the propeller shafts. The propeller shafts float within their respective gears.
In another respect, combinations of carbon steel and stainless steel are provided for the propeller shafts to afford bearing support and corrosion protection where needed.
In another aspect, propeller self-centering mounting structure is provided to maintain proper propel ler mounting notwithstanding surface operation vibration as the propellers strike and pierce the surface of the water.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side elevation view of a marine drive in accordance with the invention.
FIG. 2 is a partial sectional view of a portion of the structure of FIG. 1.
FIG. 3 is an enlarged view of a portion of the structure of FIG. 2.
FIG. 4 is an exploded perspective view of a portion of the structure of FIG. 1.
DETAILED DESCRIPTION
FIG. 1 shows a marine drive 10 having two counter-rotating surface operating propellers 12 and 14.
The drive is mounted to the transom 16 of a boat 18 according to the usual marine stern drive mounting arrangement. An input shaft 20, FIG. 2, is driven by an engine (not shown) in the boat. Input shaft 20 is coupled through a universal joint 22 to an upper gear and clutch mechanism 24 which is known in the art, as shown in U.S. Patents 4,630,719, 4,679,682, and 4,869,121, incorporated herein by reference. Universal joint 22 allows trimming and steering of the drive.
Drive housing 26 has a horizontal bore 28 and an intersecting vertical bore 30 therein. Upper gear mechanism 24 drives a vertical driveshaft 32 positioned in vertical bore 30. Horizontal bore 28 is in the portion of the drive housing called the torpedo 34, FIG. 4.
In the preferred embodiment, FIG. 1, torpedo 34 is spaced slightly above the bottom 36 of the boat such that torpedo 34 is slightly above the surface of the water. A spool assembly 38, FI. 3, is positioned in horizontal bore 28 of housing 26 and supports a first inner propeller shaft 40 and a second hollow outer propeller shaft 42. Propeller shaft 42 is positioned concentrically over propeller shaft 40. The propeller shafts rotate in opposite rotational directions. Surface operating propeller 12 is mounted to propeller shaft 40. Surface operatIng propeller 14 is mounted to propeller shaft 42.
One of the propellers is a right hand rotating propeller, and the other propeller is a left hand rotating propeller.
Retaining structure is provided for holding the spool assembly 38 fixed for non-rotation within horizontal bore 28 in both rotational directions as the propellers strike and pierce the surface of the water. The retaining structure is provided by a first right hand thread set 44, FIG. 3, and a second left hand thread set 46. The thread sets are spaced along the rotational axis of the propeller shafts. Right hand thread set 44 prevents right hand rotational loosening of the spool assembly. Left hand thread set 46 prevents left hand rotational loosening of the spool assembly. The spool assembly includes a cylindrical bearing support housing 48,
FIGS. 3 and 4, having a mounting thread 50 thereon for engagement with a mounting thread 52 in bore 28 of housing 26.The spool assembly also includes a cylindrical ring locking member 54 having a left hand thread 56 for engagement with a mating thread 58 in bore 28 of housing 26, for clamping against bearing support housing 48 to fix the rotational and axial position of both bearing support housing 48 and locking member 54 in horizontal bore 28, whereby rotation of the spool assembly is prevented in each rotational direction. A locking tab washer 60 is provided between locking member 54 and bearing support housing 48, and O-ring 62 provides a seal between bearing support housing 48 and drive housing 26 preventing entry of water forwardly into bore 28. Flats 61 on washer 60 engage flats 49 on housing 48 to lock the washer 60 against rotation relative to housing 48.Tabs 63 on washer 60 are bent outwardly into slotted recesses 55 on locking member 54 to prevent rotation of member 54 relative to washer 60, which in turn prevents rotation of member 54 relative to housing 48. Housing 48 is then locked into bore 28 by the noted reverse threads 50 and 56. Spool retaining structure for submerged drives using a set screw is known in the prior art, for example U.S.
Patent 4,897,058.
The spool assembly includes an aft bearing support portion 64, FIG. 3, extending rearwardly outwardly from housing 26. Needle bearing 66 is positioned between propeller shaft 42 and bearing support housing 48 in extended bearing support portion 64 such that the propeller shafts are supported over a length to prevent bending of the propeller shafts during the surface operation of the propellers as the propellers strike and pierce the surface of the water. Bearings in rearwardly extended spool portions are known in the prior art, for example U.S. Patent 4,897,058. One or more seals 68, 70 are positioned between propeller shaft 42 and extended bearing support portion 64 of the spool assembly and aft of bearing 66 to prevent entry of water forwardly into the space between propeller shaft 42 and the spool assembly.
A pinion driving gear 72, FIG. 3, is mounted on the lower end of vertical driveshaft 32 in splined relation and is held thereon by nut 74. A fore driven gear 76 is fixed on inner propeller shaft 40 in splined relation and is engaged by pinion gear 72 for drivingly rotating inner propeller shaft 40. An aft driven gear 78 is fixed on outer propeller shaft 42 in splined relation and is engaged by pinion gear 72 for drivingly rotating outer propeller shaft 42 in the opposite rotational direction as inner propeller shaft 40. A tapered roller thrust bearing 80 supports driven gear 76 for rotation in bore 28 of housing 26. Bearing 80 has an inner race 82 engaging gear 76, and an outer race 84 engaging housing 26. A shim 86 may be provided if desired for adjusting axial positioning.A second tapered roller thrust bearing 88 supports the aft driven gear for rotation in bore 28 of housing 26. Bearing 88 has an inner race 90 engaging gear 78, and an outer race 92 engaging housing 26.
Outer race 92 has a rearward end portion 94 facing the spool assembly and held thereby against axial movement, to prevent rearward movement of gear 78. Spacer washer 96 is provided between rearward end 94 of outer race 92 and forward end 97 of bearing support housing 48 of spool assembly 38.
A thrust bearing assembly 98, FIG. 3, engages between the propeller shafts such that thrust from outer propeller shaft 42 is transferred to inner propeller shaft 40 during rotation of the propeller shafts in opposite directions. Inner propeller shaft 40 extends through fore driven gear 76 and aft driven gear 78.
Outer propeller shaft 42 extends through aft driven gear 78. Inner propeller shaft 40 has an annular shoulder 100 against which the thrust from outer propeller shaft 42 is transferred. Thrust bearing assembly 98 is mounted between shoulder 100 and the forward axial end 102 of outer propeller shaft 42. Thrust bearing assembly 98 is located axially between fore driven gear 76 and aft driven gear 78, such that thrust is transferred from outer propeller shaft 42 to inner propeller shaft 40 at an axial position on the propeller shafts located between gears 76 and 78.Thrust bearing assembly 98 includes a thrust bearing 104 engaging shoulder 100 of inner propeller shaft 40, and an annular cup-shaped thrust member 106 engaging thrust bearing 104 and the forward end 102 of outer propeller shaft 42 to transfer thrust from outer propeller shaft 42 to inner propeller shaft 40. Snap ring 108 stops rearward movement of the shaft in the reverse direction. The propeller shafts are allowed to slide fore and aft within their respective gears 76 and 78 along their respective splines, providing a floating shaft arrangement, without loading the gears. Thrust bearing assembly 98 is a double speed bearing and accom modates the opposite rotational directions of the propeller shafts.
One or more annular seals 110, 112, FIG. 3, are positioned between inner propeller shaft 40 and outer propeller shaft 42 at the propeller mounting end of propeller shaft 40 such that water is prevented from entering forwardly into the space between the propeller shafts. A needle bearing 114 is positioned between inner propeller shaft 40 and outer propeller shaft 42 and forward of seals 110, 112. Propeller shaft 40 has a stainless steel outer surface 116 rearward of seals 110, 112, and a carbon steel outer surface 118 forward of the seals at bearing 114. In one embodiment, inner propeller shaft 40 is a two piece member formed by 2 forward carbon steel piece and a rearward stainless steel piece welded to each other at a weld joint 120 between bearing 114 and the seals 110, 112.In another embodiment, inner propeller shaft 40 is a stainless steel member having a carbon steel sleeve therearound at bearing 114. Outer propeller shaft 42 has a stainless steel outer surface 122 rearward of seals 68, 70, and a carbon steel outer surface 124 forward of the seals at bearing 66. In one embodiment, outer propeller shaft 42 is a two piece member formed by a forward carbon steel piece and a rearward stainless steel piece welded to each other at a weld joint 126. In another embodiment, outer propeller shaft 42 is a stainless steel member having a carbon steel sleeve therearound at bearing 66.
Self-centering mounting structure is provided for the propellers on each propeller shaft. Inner propeller shaft 40 has a tapered shoulder outer surface 128,
FIG. 3, a threaded outer surface 130 axially spaced rearwardly of tapered outer surface 128, and a driving spline 132 therebetween and drivingly engaging propeller 12 in splined relation. An annular ring 134 of a material, e.g. bronze, non-fretting relative to stainless steel, has an inner tapered surface 136 engaging tapered outer surface 128 of inner propeller shaft 40. Ring 134 has a tapered outer surface 138. An internally threaded nut 140 of a material, e.g. bronze, non-fretting relative to stainless steel, threadingly engages threaded outer surface 130 of inner propeller shaft 40. Nut 140 has a tapered outer surface 142.Propeller 12 is mounted on inner propeller shaft 40 between ring 134 and nut 140 and is engaged forwardly at tapered outer surface 138 of ring 134, and is engaged rearwardly at tapered outer surface 142 of nut 140. Tapers 138 and 142 provide a tight selfcentering fit and mounting of the propeller to the propeller shaft. Splines 132 do not provide a tight fit, but merely rotational drive.
Outer propeller shaft 42 has a tapered shoulder outer surface 144, FIG. 3, a threaded outer surface 146 axially spaced rearwardly of tapered outer surface 144, and a driving spline 148 therebetween for drivingly engaging propeller 14 in splined relation. A ring 150 of a material, e.g. bronze, non-fretting relative to stainless steel, has a tapered inner surface 152 engaging tapered outer surface 144 of outer propeller shaft 42.
Ring 150 has a tapered outer surface 154. An internally threaded nut 156 of a material, e.g. bronze, non-fretting relative to stainless steel, threadingly engages threaded outer surface 146 of outer propeller shaft 42. Nut 156 has a tapered outer surface 158. Propelled 14 is mounted on outer propeller shaft 42 between ring 150 and nut 156 and is engaged forwardly at tapered outer surface 154 of ring 150, and is engaged rearwardly at tapered outer surface 158 of nut 156. Tapers 154 and 158 provide a tight self-centering fit. Splines 148 do not provide a tight fit, but only rotational drive.
Vertical driveshaft 32, FIG. 2, is supported at its top end by a needle bearing 160 as in the above incorporated patents. The driveshaft is supported at its lower end by a needle bearing 162. Driveshaft 32 is centrally supported in bore 30 by tapered roller thrust bearing 164 retained by threaded ring 166. Driveshaft 32 is also supported by needle bearing 158 in upper spool 170 mounted at threads 172 in bore 30, and also having a needle bearing 174 supporting gear 176 of upper gear assembly 24. Reference is made to United
States Patent No. 5,230,644, entitled "Counterrotating Surfacing Marine Drive".
Cooling water for the engine is supplied from water intake 178 in skeg 180. The water flows through skeg passage 182, torpedo nose passage 184 and then through housing passage 186 and then to the engine in the usual manner. After cooling the engine, the water and the engine exhaust are exhausted in the usual manner through an exhaust elbow and through the drive housing and are discharged at exhaust outlet 188 above torpedo 34 and into the path of the propeller blades in the upper portion of their rotation, as in U.S.
Patent 4,871,334. Oil circulates from the lower gears upwardly through passages 190 and 192 to the upper gears and then downwardly through passage 194 to the lower gears at passages 196 and 197. Passage 196 supplies oil through passage 198 in the spool assembly to bearings 88 and 66, and through passage 199 in outer propeller shaft 42 to bearing 114. Passage 197 supplies oil to the forward end of bearing 88.
It is recognized that various equivalents, alternatives and modifications are possible within the scope of the appended claims. Various principles of the invention are applicable to both surfacing and submerged drives, i.e. to both surface-operating propellers and to submerged-operation propellers.
Reference is made to British Patent Application
No. GB 9600618.4 (Publication No. GB 2294914), which relates to a marine drive having two counter-rotating surface operating propellers, comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
spool means positioned in said horizontal bore;
a first inner propeller shaft and a second hollow outer propeller shaft,
said second propeller shaft being positioned
concentrically over said first propeller shaft,
and said propeller shafts having aft propeller
mounting ends;
an annular seal positioned between said first propeller shaft and said second propeller shaft at the propeller mounting end of said first propeller shaft such that water is prevented from entering forwardly into the space between said first propeller shaft and said second propeller shaft; and
a bearing positioned between said first propeller shaft and said second propeller shaft and forward of said seal,
said first propeller shaft having a stainless steel outer surface rearward of said seal, and said first propeller shaft having a carbon steel outer surface forward of said seal at said bearing.
Reference is also made to British Patent
Application No. GB 9310918.9 (Publication No. GB 2267686), which relates to a marine drive comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a first, inner propeller shaft;
a second, hollow outer propeller shaft positioned over the first propeller shaft to form a dual propeller shaft assembly,
said dual propeller shaft assembly being positioned in said horizontal bore,
said first propeller shaft being arranged to counter-rotate with respect to said second propeller shaft;
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a fore driven gear drivingly connected to said first propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction; ;
an aft driven gear drivingly connected to said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction, said fore and aft driven gears being separated by an axial gap therebetween;
a thrust bearing transferring forward thrust from said second propeller shaft to said first propeller shaft at a location aft of the axial location at which said fore driven gear is connected to said first propeller shaft.
Claims (13)
1 A marine drive having two counter-rotating surface operating propellers, comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a first inner propeller shaft and a second hollow outer propeller shaft,
said second propeller shaft being positioned
concentrically over said first propeller shaft;
and
spool means supporting said first and second propeller shafts,
said spool means being mounted in said
horizontal bore with a first right hand thread
set and a second left hand thread set whereby to
fix said spool means in said horizontal bore of
said housing.
2. A marine drive according to claim 1 wherein said spool means includes:
a bearing support housing having a first thread engaging a mating thread in said horizontal bore; and
a locking member having a second thread engaging a mating thread in said horizontal bore, said first and second threads being of opposite direction.
3. A marine drive according to claim 1, wherein said second propeller shaft and said first propeller shaft form a dual propeller shaft assembly which is positioned in said horizontal bore, and
said first propeller shaft is arranged to counter-rotate with respect to said second propeller shaft,
said marine drive further comprising:
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end o.
said vertical driveshaft;
a fore driven gear on said first inner propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction;
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivlngly rotate said second propeller shaft in a second rotational direction;
a tapered roller bearing supporting said aft driven gear for rotation in said housing, said tapered roller bearing having:
an inner race engaging said aft driven gear,
and
an outer race engaging said housing; and
a threaded locking member engaging said
housing in thread mounted relation within said
horizontal bore and holding said tapered roller
bearing in place and preventing rearward movement
of said tapered roller bearing and said aft
driven gear.
4. A marine drive according to claim 3 wherein said second propeller shaft extends axially through said aft driven gear, and said aft driven gear is axially slidable along said second propeller shaft.
5. A marine drive according to claim 4 wherein:
said fore and aft driven gears are axially spaced by a gap therebetween;
said first propeller shaft has an annular shoulder in said axial gap between said fore and aft driven gears and facing rearwardly toward said aft driven gear;
said second propeller shaft has a forward end in said axial gap between said fore and aft driven gears and spaced rearwardly of said annular shoulder on said first propeller shaft by a second axial gap;
and said marine drive further comprising::
a thrust bearing in said second axial gap between said forward end of said second propeller shaft and said annular shoulder on said first propeller shaft and transferring forward thrust from said second propeller shaft to said first propeller shaft;
a retaining member on said second propeller shaft between said thrust bearing and said aft driven gear, said retaining member being fixed on said second propeller shaft against axial movement relative thereto and engageable with said aft driven gear to stop rearward axial movement of said second propeller shaft.
6. A marine drive according to claim 1, further comprising:
a first propeller self-centering mounting means on said first propeller shaft; and
a second propeller self-centering mounting means on said second propeller shaft.
7. A marine drive according to claim 6 wherein said first propeller self-centering mounting means comprises:
a first driving spline;
a first tapered shoulder means;
a first end threaded portion; and
a first nut having a first tapered end portion, and
said second propeller self-centering mounting means comprises:
a second driving spline;
a second tapered shoulder means;
a second end threaded portion; and
a second nut having a second tapered end portion.
8. A marine drive according to claim 1, wherein said second propeller shaft and said first propeller shaft to form a dual propeller shaft assembly,
said dual propeller shaft assembly being
positioned in said horizontal bore, and
said first propeller shaft being arranged to
counter-rotate with respect to said second
propeller shaft,
said marine drive further comprising:
thrust bearing means engaging between said first propeller shaft and said second propeller shaft such that thrust from said second outer propeller shaft is transferred to said first inner propeller shaft during rotation of said propeller shafts in opposite directions.
9. A marine drive according to claim 8, further comprising:
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a first driven gear attached to said first inner propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction; and
a second driven gear attached to said second outer propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction,
said first and second driven gears being
spaced, and
said thrust bearing means being mounted
between said second propeller shaft and said
first propeller shaft and transferring thrust
from said second propeller shaft to said first
propeller shaft.
10. A marine drive according to claim 29 wherein:
said first propeller shaft extends through said first driven gear and said second driven gear;
said second propeller shaft extends through said second driven gear; and
said thrust bearing means transfers thrust from said second propeller shaft to said first propeller shaft at an axial position on said propeller shafts located between said first driven gear and said second driven gear.
11. A marine drive according to any of claims 8 to 10 wherein:
said first inner propeller shaft includes an annular shoulder; and
said thrust bearing means axially engages said annular shoulder.
12. A marine drive according to any of claims 8 to 11 wherein said thrust bearing means comprises:
a thrust bearing engaging one of said propeller shafts; and
a thrust member engaging said thrust bearing and the other of said propeller shafts and transferring said thrust from said second outer propeller shaft to said first inner propeller shaft.
13. A marine drive according to claim 1, wherein said second propeller shaft and said first propeller shaft form a dual propeller shaft assembly,
said dual propeller shaft assembly is positioned in said horizontal bore, and
said first propeller shaft is arranged to counter-rotate with respect to said second propeller shaft,
said marine drive further comprising: :
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a fore driven gear on said first propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction;
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction, said fore and aft driven gears being separated by an axial gap therebetween; and
a thrust bearing transferring forward thrust from said second propeller shaft to said first propeller shaft at a location aft of said fore driven gear.
13. A marine drive according to claim 1, wherein said second propeller shaft and said first propeller shaft form a dual propeller shaft assembly,
said dual propeller shaft assembly is positioned in said horizontal bore, and
said first propeller shaft is arranged to counter-rotate with respect to said second propeller shaft,
said marine drive further comprising::
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end o said vertical driveshaft;
a fore driven gear on said first propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction;
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction, said fote and aft driven gears being separated by an axial gap therebetween; and
a thrust bearing transferring forward thrust from said second propeller shaft to said first propeller shaft at a location aft of said fore driven gear.
14. A marine drive comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a first inner propeller shaft;
a second hollow outer propeller shaft positioned over said first propeller shaft to form a dual propeller shaft assembly,
said dual propeller shaft assembly being
positioned in said horizontal bore, and
said first propeller shaft being arranged to
counter-rotate with respect to said second
propeller shaft;
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a fore driven gear on said first inner propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction; and
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction, said second propeller shaft extending axially through said aft driven gear, said aft driven gear being axially slidable along said second propeller shaft, and said fore and aft driven gears being axially spaced by a gap therebetween.
15. A marine drive having two counter rotating surface operating propellers comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted cn the lower end of said vertical driveshaft;
a first inner propeller shaft and a second hollow outer propeller shaft;
said second propeller shaft positioned over
said first propeller shaft to form a dual
propeller shaft assembly, and
said dual propeller shaft assembly
positioned in said horizontal bore;;
a first surface operating propeller and a second surface operating propeller,
each of said first and second propellers
mounted to a respective one of said first and
second propeller shafts,
one of said propellers being a right hand
rotation surface operating propeller, and
the other of said propellers being a left
hand rotation surface operating propeller;
a first driven gear fixed on said first propeller shaft for engagement with said pinion gear for drivingly rotating said first propeller shaft in a first rotational direction;
a second driven gear fixed on said second propeller shaft for engagement with said pinion gear for drivingly rotating said second propeller shaft in a second rotational direction; and
spool means having:
a bearing support housing fixed in said
horizontal bore for supporting said propeller
shaft assembly;
said bearing support housing formed as a
first cylindrical member; and
a locking member fixed in said horizontal
bore adjacent said bearing support housing,
said locking member being formed as a
second cylindrical member.
15. A marine drive comprising:
a housing having a horizontal bore and an intersecting vertical bore therein,
a spool positioned in said horizontal bore;
a first inner propeller shaft and a second hollow outer propeller shaft, said first propeller shaft being within said second propeller shaft and spaced therefrom by a first annulus, said second propeller shaft being within said spool and spaced therefrom by a second annulus;
a first aft bearing within said first annulus and supporting said first propeller shaft for rotation within said second propeller shaft;
a second aft bearing within said second annulus and supporting said second propeller shaft for rotation within said spool;
a first oil passage comprising a passage in said housing supplying oil to said second annulus to lubricate said second aft bearing; and
a second oil passage comprising a passage in said second propeller shaft supplying oil from said second annulus to said first annulus to lubricate said first aft bearing.
17. A marine drive comprising:
a housing having a horizontal bore and an intersecting vertical bore therein,
a first inner propeller shaft;
a second hollow outer propeller shaft positioned over said first propeller shaft to form a dual propeller shaft assembly,
said dual-propeller shaft assembly being
positioned in said horizontal bore, and
said first propeller shaft being arranged to counter-rotate with respect to said second propeller shaft;
a vertical driveshaft positioned in said
vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a fore driven gear on said first inner propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction;;
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction;
a tapered roller bearing supporting said aft driven gear for rotation in said housing, said tapered roller bearing having:
an inner race engaging said aft driven gear,
and
an outer race engaging said housing; and
a threaded locking member engaging said
housing in thread mbunted relation within said
horizontal bore and holding said tapered roller
bearing in place and preventing rearward movement
of said tapered roller bearing and said aft
driven gear.
18. A marine drive having two counter-rotating surface operating propellers comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
spool means positioned in said horizontal bore;
a first inner propeller shaft and a second hollow outer propeller shaft,
said second propeller shaft being positioned
concentrically over said first propeller shaft,
said first propeller shaft and said second
propeller shaft being positioned within said
horizontal bore and supported by said spool
means,
said first propeller shaft being arranged to
rotate in a first rotational direction, and
said second propeller shaft being arranged
to rotate in a second opposite rotational
direction; ;
a first surface operating propeller mounted to said first propeller shaft and a second surface operating propeller mounted to said second propeller shaft,
one of said propellers being a right hand
rotating propeller, and
the other of said propellers being a left
hand rotating propeller; and
retaining means for holding said spool means fixed for non-rotation within said horizontal bore in both said first rotational direction and said second rotational direction as said propellers strike and pierce the surface of the water.
19. A marine drive having two counter-rotating surface operating propellers, comprising:
a housing having a horizontal bore and an intersecting vertical bore therein, a first inner propeller shaft;
a second hollow outer propeller shaft positioned over said first inner propeller shaft,
said second propeller shaft being positioned
concentrically over said first propeller shaft to
form a dual propeller shaft assembly, and
said dual- propeller shaft assembly being
positioned in said horizontal bore;
a first propeller self-centering mounting means on said first propeller shaft; and
a second propeller self-centering mounting means on said second propeller shaft.
20. A marine drive having two counter-rotating surface operating propellers, comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a first inner propeller shaft;
a second hollow outer propeller shaft positioned over said first propeller shaft to form a dual propeller shaft assembly,
said dual propeller shaft assembly being
positioned in said horizontal bore, and
said first propeller shaft being arranged to
counter-rotate with respect to said second
propeller shaft; and
thrust bearing means engaging between said first propeller shaft and said second propeller shaft such that thrust from said second outer propeller shaft is transferred to said first inner propeller shaft during rotation of said propeller shafts in opposite directions.
21. A marine drive having two counter-rotating surface operating propellers, comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
spool means positioned in said horizontal bore;
a first inner propeller shaft and a second hollow outer propeller shaft,
said second propeller shaft being positioned
concentrically over said first propeller shaft,
and said propeller shafts having aft propeller
mounting ends;
an annular seal positioned between said first propeller shaft an said second propeller shaft at the propeller mounting end of said first propeller shaft such that water is prevented from entering forwardly into the space between said first propeller shaft and said second propeller shaft; and
a bearing positioned between said first propeller shaft and said second propeller shaft and forward of said seal,
said first propeller shaft having a
stainless steel outer surface rearward of said
seal, and said first propeller shaft having a
carbon steel outer surface forward of said seal
at said bearing,
22.A marine drive comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a first inner propeller shaft;
a second hollow outer propeller shaft positioned over propeller shaft to form a dual propeller shaft assembly,
said dual propeller shaft assembly being
positioned in said horizontal bore, and
said first propeller shaft being arranged to
counter-rotate with respect to said second
propeller shaft;
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a fore driven gear on said first propeller shaft and engaged by said pinion gear to driving rotate said first propeller shaft in a first rotational direction;;
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction, said fore and aft driven gears being separated by an axial gap therebetween; and
a thrust bearing transferring forward thrust from said second propeller shaft to said first propeller shaft at a location aft of said fore driven gear.
Amendments to the claims have been filed as follows
CLAIMS:
1. A marine drive having two counter-rotating surface operating propellers, comprising:
a housing having a horizontal bore and an intersecting vertical bore therein;
a first inner propeller shaft and a second hollow outer propeller shaft,
said second propeller shaft being positioned
concentrically over said first propeller shaft;
and
spool means supporting said first and second propeller shafts,
said spool means being mounted in said
horizontal bore with a first right hand thread
set and a second left hand thread set whereby to
fix said spool means in said horizontal bore of
said housing.
2. A marine drive according to claim 1 wherein said spool means includes:
a bearing support housing having a first thread engaging a mating thread in said horizontal bore; and
a locking member having a second thread engaging a mating thread in said horizontal bore, said first and second threads being of opposite direction.
3. A marine drive according to claim 1, wherein said second propeller shaft and said first propeller shaft form a dual propeller shaft assembly which is positioned in said horizontal bore, and
said first propeller shaft is arranged to counter-rotate with respect to said second propeller shaft,
said marine drive further comprising::
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a fore driven gear on said first inner propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction;
an aft driven gear on said second propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction;
a tapered roller bearing supporting said aft driven gear for rotation in said housing, said tapered roller bearing having:
an inner race engaging said aft driven gear,
and
an outer race engaging said housing; and
a threaded locking member engaging said
housing in thread mounted relation within said
horizontal bore and holding said tapered roller
bearing in place and preventing rearward movement
of said tapered roller bearing and said aft
driven gear.
4. A marine drive according to claim 3 wherein said second propeller shaft extends axially through said aft driven gear, and said second propeller shaft is axially slidable within said aft driven gear.
5. A marine drive according to claim 4 wherein:
said fore and aft driven gears are axially spaced by a gap therebetween;
said first propeller shaft has an annular shoulder in said axial gap between said fore and aft driven gears and facing rearwardly toward said aft driven gear;
said second propeller shaft has a forward end in said axial gap between said fore and aft driven gears and spaced rearwardly of said annular shoulder on said first propeller shaft by a second axial gap;
and said marine'drive further comprising::
a thrust bearing in said second axial gap between said forward end of said second propeller shaft and said annular shoulder on said first propeller shaft and transferring forward thrust from said second propeller shaft to said first propeller shaft;
a retaining member on said second propeller shaft between said thrust bearing and said aft driven gear, said retaining member being fixed on said second propeller shaft against axial movement relative thereto and engageable with said aft driven gear to stop rearward axial movement of said second propeller shaft.
6. A marine drive according to claim 1, further comprising:
a first propeller self-centering mounting means on said first propeller shaft; and
a second propeller self-centering mounting means on said second propeller shaft.
7. A marine drive according to claim 6 wherein said first propeller self-centering mounting means comprises:
a first driving spline;
a first tapered shoulder means;
a first end threaded portion; and
a first nut having a first tapered end portion, and
said second propeller self-centering mounting means comprises:
a second driving spline;
a second tapered shoulder means;
a second end threaded portion; and
a second nut having a second tapered end portion.
8. A marine drive according to claim 1, wherein said second propeller shaft and said first propeller shaft to form a dual propeller shaft assembly,
said dual propeller shaft assembly being
positioned in said horizontal bore, and
said first propeller shaft being arranged to
counter-rotate with respect to said second
propeller shaft,
said marine drive further comprising:
thrust bearing means engaging between said first propeller shaft and said second propeller shaft such that thrust from said second outer propeller shaft is transferred to said first inner propeller shaft during rotation of said propeller shafts in opposite directions.
9. A marine drive according to claim 8, further comprising:
a vertical driveshaft positioned in said vertical bore;
a pinion driving gear mounted on the lower end of said vertical driveshaft;
a first driven gear attached to said first inner propeller shaft and engaged by said pinion gear to drivingly rotate said first propeller shaft in a first rotational direction; and
a second driven gear attached to said second outer propeller shaft and engaged by said pinion gear to drivingly rotate said second propeller shaft in a second rotational direction,
said first and second driven gears being
spaced, and
said thrust bearing means being mounted
between said second propeller shaft and said
first propeller shaft and transferring thrust
from said second propeller shaft to said first
propeller shaft.
10. A marine drive according to claim 9 wherein:
said first propeller shaft extends through said first driven gear and said second driven gear;
said second propeller shaft extends through said second driven gear; and
said thrust bearing means transfers thrust from said second propeller shaft to said first propeller shaft at an axial position on said propeller shafts located between said first driven gear and said second driven gear.
11. A marine drive according to any of claims 8 to 10 wherein:
said first inner propeller shaft includes an annular shoulder; and
said thrust bearing means axially engages said annular shoulder.
12. A marine drive according to any of claims 8 to 11 wherein said thrust bearing means comprises:
a thrust bearing engaging one of said propeller shafts; and
a thrust member engaging said thrust bearing and the other of said propeller shafts and transferring said thrust from said second outer propeller shaft to said first inner propeller shaft.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US07/889,530 US5249995A (en) | 1992-05-27 | 1992-05-27 | Marine drive having two counter-rotating surfacing propellers and dual propeller shaft assembly |
GB9612550A GB2299799B (en) | 1992-05-27 | 1993-05-27 | Dual propeller marine drive |
Publications (3)
Publication Number | Publication Date |
---|---|
GB9616865D0 GB9616865D0 (en) | 1996-09-25 |
GB2301804A true GB2301804A (en) | 1996-12-18 |
GB2301804B GB2301804B (en) | 1997-03-05 |
Family
ID=26309523
Family Applications (3)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
GB9616867A Expired - Fee Related GB2301806B (en) | 1992-05-27 | 1993-05-27 | Dual propeller marine drive |
GB9616866A Expired - Fee Related GB2301805B (en) | 1992-05-27 | 1993-05-27 | Dual propeller marine drive |
GB9616865A Expired - Fee Related GB2301804B (en) | 1992-05-27 | 1993-05-27 | Dual Propeller marine drive |
Family Applications Before (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
GB9616867A Expired - Fee Related GB2301806B (en) | 1992-05-27 | 1993-05-27 | Dual propeller marine drive |
GB9616866A Expired - Fee Related GB2301805B (en) | 1992-05-27 | 1993-05-27 | Dual propeller marine drive |
Country Status (1)
Country | Link |
---|---|
GB (3) | GB2301806B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7070469B2 (en) | 2004-09-15 | 2006-07-04 | James Stallings | Dual propeller surface drive propulsion system for boats |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4897058A (en) * | 1988-05-23 | 1990-01-30 | Brunswick Corporation | Marine device with improved propeller shaft bearing carrier arrangement |
-
1993
- 1993-05-27 GB GB9616867A patent/GB2301806B/en not_active Expired - Fee Related
- 1993-05-27 GB GB9616866A patent/GB2301805B/en not_active Expired - Fee Related
- 1993-05-27 GB GB9616865A patent/GB2301804B/en not_active Expired - Fee Related
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4897058A (en) * | 1988-05-23 | 1990-01-30 | Brunswick Corporation | Marine device with improved propeller shaft bearing carrier arrangement |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7070469B2 (en) | 2004-09-15 | 2006-07-04 | James Stallings | Dual propeller surface drive propulsion system for boats |
Also Published As
Publication number | Publication date |
---|---|
GB2301804B (en) | 1997-03-05 |
GB9616866D0 (en) | 1996-09-25 |
GB2301806A (en) | 1996-12-18 |
GB9616865D0 (en) | 1996-09-25 |
GB2301806B (en) | 1997-03-26 |
GB2301805B (en) | 1997-03-26 |
GB2301805A (en) | 1996-12-18 |
GB9616867D0 (en) | 1996-09-25 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
PCNP | Patent ceased through non-payment of renewal fee |
Effective date: 19970605 |