US2722193A

US2722193A - Belt driven outboard marine motors

Info

Publication number: US2722193A
Application number: US307309A
Authority: US
Inventors: Richard B Brindley
Original assignee: Individual
Current assignee: Individual
Priority date: 1952-08-30
Filing date: 1952-08-30
Publication date: 1955-11-01
Anticipated expiration: 1972-11-01

Description

Nov. 1, 1955 R. B. BRINDLEY BELT DRIVEN OUTBOARD MARINE MOTORS 2 Sheets-Sheet l Filed Aug. 30, 1952 Nov. l, 1955 R. B. BRINDLEY BELT DRIVEN OUTBOARD MARINE MOTORS 2 Sheets-Sheet 2 Filed Aug. 50, 1952 United States Patent O BELT DRIVEN OUTBARD MARINE MOTRS Richard B. Brindley, La Crosse, Wis.

Application August 3i), 1952, Serial No. 307,309

12 Claims. (Cl. 115-17) This invention relates to a liquid propelling device and more particularly to a device which may be used as an outboard motor for boats.

In attempting to drive the propeller for an outboard motor for boats with a continuous, flexible driving element, the problem arises in that the movement of the driving element, from the motor positioned above the water to the propeller positioned within the water and back again to the motor, is accompanied by relatively large power losses due to the tendency of the driving element to pump water, and due to the drag of the driving element moving in the water both in the direction of the movement of the boat and in the direction of the movement of the driving element.

Furthermore, use of a continuous driving element to frictionally drive a propeller poses additional problems because of the relatively large friction losses because of slipping between the driving element and the propeller, and also because of the tendency of some continuous, flexible driving elements to stretch.

One of the objects of this invention is to provide an outboard motor for boats wherein the propeller is driven by a continuous, flexible driving element having positive driving engagement wtih the propeller so as to substantially eleminate losses due to friction and slipping of the driving element.

Another object of this invention is to provide a liquid propelling device wherein a continuous, exible driving element is used to drive a propeller and wherein streamlined shrouding is provided for the exible driving element to substantially reduce the drag of the flexible driving element moving through the liquid.

A further object of this invention is to provide a liquid propelling device including a propeller driven by a continuous, flexible driving element wherein the liquid pumping action by the continuous element, as it becomes disengaged from driving engagement with the propeller, is substantially reduced.

Still another object of this invention is to provide a liquid propelling device including a propeller driven by a continuous, exible driving element wherein the propeller is mounted within a converging-diverging type nozzle and wherein said nozzle serves as a housing for at least partially enclosing the driving element.

Further objects and advantages of this invention will become apparent as the following description proceeds and the features of novelty which characterize this invention will be pointed out with particularity in the claims annexed to and forming part of this specication.

A preferred embodiment of the invention is shown in the accompanying drawings, in which:

Figure l is a side elevational View of my liquid propelling device driven by an internal combustion engine and mounted as an outboard motor on the stern of a boat;

Figure 2 is a rear elevational view andk is taken looking from the right of Figure l; l l

Figure 3 is an enlarged view, with parts broken away,

"ice

showing the propeller and the exible driving element of my liquid propelling device;

Figure 4 is a cross-section view taken on line 4 4 of Figure 3.

Figure 5 is a cross-section View taken on line 5-5 of Figure 3.

Figure 6 is a fragmentary view, partly in cross-section, taken substantially on line 6-6 of Figure 2.

Referring now to the figures, there is shown in Figure l an outboard motor generally indicated at 10 secured to the stern 12 of a boat, the upper portion of which is above the liquid level indicated at 14. The outboard motor 10 includes an internal combustion engine 16 having a drive shaft 18. The internal combustion engine 16 is mounted on a support generally indicated at 20, which support is provided with appropriate means for securing the outboard motor 10 to the boat.

The liquid propelling means of the outboard motor lll includes a propeller generally indicated at' 22, a housing 24 surrounding propeller 22, which housing 24 also provides means for rotatably supporting propeller 22, a iexible inelastic driving element 26 and tubular shrouds 28, through which shrouds passes the driving element 26, and which tubular shrouds 28 also support housing 24.

Referring particularly to Figures 3, 4, and 5, the propeller includes a wheel rim 30, and a plurality of

blades

32 and 34 secured thereto. The

blades

32 and 34 are secured at their tips to wheel rim and have a hub 36 formed at the radially inner ends thereof and interconnecting the blades. The wheel rim 30 is provided on its outer periphery with a plurality of axially extending spaced teeth 3S.

The driving element 26 is a continuous memberexible, substantially impervious to liquids, and resilient-and is provided along its inner periphery with spaced teeth adapted to drivingly engage teeth 38 on wheel rim 30. The driving element 26 is trained over a pulley 42 (Figures l and 2). The pulley 42 is mounted on drive shaft 18 and is provided on its outer periphery with teeth for meshing with teeth 40 on the inner periphery of driving element 26. The internal combustion engine 16 drives the propeller 22 through means of the driving element 26.

It will be noted that the diameter of pulley 42 is smaller than the diameter ot' wheel rim 30, and, consequently, the angular rotation of wheel rim 30 is less than that of pulley 42. While previous outboard motors generally use gear reducers, the necessity for a gear reducer may be obviated by this arrangement, and thus the power loss which is inherent in gear reducers is also avoided by my invention.

The supporting structure 20 for the internal combustion engine includes downwardly extending flanges 43 and 44 and an interconnecting web 46 forming a channel shaped structure for supporting the liquid propelling means. Secured to the inner sides of flanges 43 and 44 by appropriate means, such as by welding, are tubular shrouds 23, to the lower ends of which is connected the housing 24. The tubular shrouds 28 are connected to the housing 24 by appropriate means, such as by welding. The points of connection of the tubular shrouds 28 to the housing 24 are liquid tight. The continuous, flexible element 26 passes through shrouds 28 and is trained over the A wheel rim 3d. The shrouds 28 are streamlined, as clearlyv seen in Figure 5, to reduce their drag when passing through the liquid.

Referring now to the housing 24, said housing is generally annular and has a plurality of ribs 48 secured thereto and extending radially inward to support a hub 50 thereby. A shaft 52 is supported in said hub S0 and has'mounted for rotation on the extending end thereof 3 hub 36 of the propeller 22. A thrust washer 53 is provided between hubs S and 36.

The inner periphery of annular housing 24 has a circumferential channel 54 formed therein to receive the wheel rim 30. The annular housing 24 isstreamlined. The inner surface 56 of annular housing 24 is so shaped, and the inner surface 58 of wheel rim 30 is so shaped, that together they form the contour of a convergingdiverging, or Venturi nozzle. The tips of

blades

32 and 34 are secured to wheel rim 30 substantiaUy at the point corresponding to the throat of the nozzle.

Referring back to the wheel rim-30, a pair of

circumferential anges

60 and 62 are secured to the axial edges of wheel rim and extend radially outwardly of the wheel rim 30 to form with said wheel rim 30 a channel 64 for receiving the driving element 26 and for maintaining said driving element 26 in position.

'The spacing between

flanges

60, 62 and the surfaces forming the adjacent opposite walls of channel 54 is as small as possible so as to eliminate, as much as possible, pumping of liquid that may enter between the

flanges

60, 62 and said surfaces of channel 54.

Now when driving element 26 leaves the surface of wheel rirn 30 at region A, Figure 3, there is a tendency for the liquid to rush into the void caused by the separation of the driving element 26 from the periphery of wheel rim 30. Accompanying such tendency of liquid to rush into the void, is great turbulence in the liquid, and pumping of the liquid by the driving element 2.6, both of which result in power losses. To eliminate or reduce the power losses in this region, means are provided for introducing gases into region A.

The `means for introducing gases into region A include apertures 66 in the housing wall. A gas duct 68 is formed on the leading edge of one of the shrouds 28 and extends down into the liquid with the interior of duct 68 in communication with the apertures 66. The upper end of gas duct 68 is provided with tubing 70 .or the like for connecting to a source of gas under pressure, such as compressed air (not shown), or the exhaust gases from the internal combustion engine (details of connections to engine not shown).

`While only a single duct 68 is required. to introduce gasesunder pressure into region A, a similar duct 68.may be secured to the other shroud 28 Vsoas `to preserve the symmetryof the liquid propelling device,

When the propeller 22 is rotating at an 'adequate speed, the `liquidV normally residing with the driving. element 26 in the area enclosing the drivingelernent 26, is evacuated and the driving element 26 operates in substantially dry It is desirable that the driving element 26 in this type of outboard motor operate in substantially dry atmosphere otherwise the driving element 26 -would operate in part as a pump, pumping the liquid adjacent thereto and reducing the yeiciency of the propelling device. The suction created by the propeller and the supplying of gases under pressure into region A as described above, substantially satises the requirement that the driving element 26 operate in substantially dry atmosphere. By proper hydraulic design, as much liquid as is possible -is eliminated between the

tianges

60, 62 and the opposite walls of channel 54 so as to prevent, to as great a degree as possible, the pumping of liquid which may occur in those regions. The velocity of the liquid induced by the rotation of the propeller causes a decrease in pressure in the regions between

flanges

60, 62 and the opposite walls of channel 54 and much of the liquid therebetween is removed by such pressure differentials.

At the point just prior to the separation of the driving element 26 from wheel rim 30, which point is just below region A, shown in Figure 3, it is desirable that there be as little clearance as possible between the outer periphery of driving element 26 and the opposite wall of channel 54. Such minimal clearance substantially reduces the possibility of pumping of the liquid by driving element 26 at the point where the driving element leaves the periphery of wheel rim 30. In order to avoid possible friction losses between the outer periphery of driving element 26 and the opposite adjacent surface of circumferential channel 54, as might be obtained by having said minimal clearance referred to extend over the entire region wherein the driving element 26 is trained over the wheel rim 30, it is possible to design the diameter of wheel rim 30 and of circumferential channel 54 in such `a Way that by merely mounting the axis of Wheel rim 30 slightly eccentric with respect to the true axis of the housing 24, the minimal clearance will be provided solely in the region desired and possible frictional contact of the outer periphery of driving element 26 and the opposite adjacent surface of channel 54 will take place only at this point of minimal clearance.

The eccentric mounting of wheel rim 30 with respect to the axis of housing 24 and the clearances between .the driving elements 26 and the surrounding surfaces of channel 54 are illustrated in Figure 3 by the dimension lines which are tangent to the various elements and which extend downwardly on both sides of the figure. The relatively wide spacing of the dimension lines on the-left of Figure 3 illustrates the spacing between driving element 26 and channel 54, and the relatively narrow `spacing of the dimension lines on the right of Figure 3 shows the close spacing between driving element 26 and channel 54 at a point just below region A, for the purposes described hereinabove.

While there has been shown and described a particular embodiment of this invention, it will be obvious-to those skilled in the art that various changes and modifications may be made without departing from the invention and, therefore, it is intended in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the invention.

What I claim as new, and desire` to secure by Letters Patent of the United States is:

l. Av liquid propelling device comprising a rotatably mounted member having propeller blades secured thereto and adapted to be immersed in` said liquid,ia flexible moving belt trained over and driving said rotatable member, a housing substantially surrounding said member with the belt trained oversaid member, said housing being spaced from said rotatable member, a pair of shrouds extending from said housing through which shrouds the belt passes, a plurality of apertures in said housing adjacent the point where the belt disengages from the rotatable l member, and means for supplying gases under pressure through said apertures into the space between said rotatable member and said surrounding housing.

2. A liquid propelling device comprising .a `rotatably mounted member having propeller blades secured thereto, a flexible belt trained over and driving said rotatable member, a housing substantially `surrounding saidmember with the belt trained over said member, a pair of shrouds extending from said housing through which shrouds the belt passes, a plurality of apertures in said housing adjacent the point where the belt disengages from the `rotatable member, a fluid tight conduit in communication with said apertures, an internal combustion engine driving said belt, and means supplying the exhaust gases of the internal combustion engine through said conduit.

3. A liquid propelling device comprising a` rotatably mounted member having propeller blades secured thereto, a ilexible belt trained over and driving said rotatable member, a housing substantially surrounding said rotatable member with the belt trained over `said member, means on said housing supporting a hub on which is rotatably mounted said rotatable member and said propeller blades, a pair of shrouds extending from said housing through which shrouds the vbelt passes, a plurality of apertures in said housing adiacent the point where the belt disengages from the rotatable member, a fluid tight conduit inv communication with said apertures, an internal combustion engine in operative association with said belt for driving said belt, means mounting said housing in spaced relation to said engine, and means supplying the exhaust gases of the internal combustion engine through said conduit and through said apertures.

4. A liquid propelling device comprising a rotatably mounted annular member, propeller blades secured to a central hub and extending outwardly and having their tips secured to the inner periphery of said annular member, a ilexible member trained over and driving said annular member, a housing substantially surrounding said annular member with ilexible member trained thereover, and means for supplying a gas under pressure to the space in said housing bounded by the annular member and the ilexible member tangential thereto, where the flexible member leaves the periphery of the annular member.

5. A liquid propelling device comprising a rotatably mounted annular member, propeller blades secured to a central hub and extending outwardly and having their tips secured to the inner periphery of said annular member, a llexible member trained over and driving said annular member, a housing substantially surrounding said annular member with flexible member trained thereover, means for supplying a gas under pressure to the space in said housing bounded by the annular member and the llexible member tangential thereto, where the llexible member leaves the periphery of the annular member, and the spacing between said housing and said annular member just before the point of separation of the belt from said annular member being as small as possible, whereby the pumping of liquid by said llexible member is substantially reduced.

6. A liquid propelling device comprising a rotatably mounted annular member, propeller blades secured to a central hub and extending outwardly and having their tips secured to the inner periphery of said annular member, a llexible member trained over and driving said annular member, a housing substantially surrounding said annular member with ilexible member trained thereover, shrouds extending from said housing through which passes said flexible member, and means for supplying a gas under pressure to the space in said housing bounded by the annular member and the ilexible member tangential thereto, where the ilexible member leaves the periphery of said annular member, including a lluid tight conduit secured to one of said shrouds, an internal combustion engine for driving said ilexible member, and means supplying the exhaust gases of the internal combustion engine through said conduit.

7. In an outboard-type boat propelling device, the combination, with a frame arranged to be secured on a boat hull, of a rotatable drive means mounted on said frame, a support extending downwardly from said frame and having secured thereto a plurality of ribs disposed substantially radially of an axis, which axis is substantially parallel to the axis of rotation of said rotatable drive means, a hub supported by the inner ends of said ribs, a propeller with substantially radially extending blades rotatably mounted on said hub, an annular member surrounding said propeller and secured thereto, a continuous ilexible drive member trained over said annular member and in driving association therewith, and said continuous llexible drive member being operatively associated with said rotatable drive means and driven thereby.

8. In an outboard-type boat propelling device, the combination, with a frame arranged to be secured on a boat hull, of a rotatable drive means mounted on said frame, a support extending downwardly from said frame and having secured thereto a plurality of ribs disposed substantially radially of an axis, which axis is substantially parallel-to the axis of rotation of said rotatable drive means, a hub supported by the inner ends of said ribs, a propeller with substantially radially extending blades rotatably mounted on said hub, an annular member surrounding saidpropeller and secured thereto, a continuous llexible drive member trained over said annular member and in driving association therewith, said continuous flexible drive member being operatively associated with said rotatable drive ymeans and driven thereby, and a portion of said support forming an annular housing substantially surrounding said annular member.

9. In an outboard-type boat propelling device, the combination, with a frame arranged to be secured on a boat hull, of a rotatable drive means mounted on said frame, a support extending downwardly from said frame and having secured thereto a plurality of ribs disposed substantially radially of an axis, which axis is substantially parallel to the axis of rotation of said rotatable drive means, a hub supported by the inner ends of said ribs, a propeller with substantially radially extending blades rotatably mounted on said hub, an annular member surrounding said propeller and secured thereto, a continuous ilexible drive member trained over said annular member and in driving association therewith, said continuous flexible drive member being operatively associated with said rotatable drive means and driven thereby, a portion of said support forming an annular housing substantially surrounding said annular member, and said support including upright extending tubular elements through which passes said continuous ilexible drive member.

10. In an outboard-type boat propelling device, the combination, with a frame arranged to be secured on a boat hull, of a rotatable drive means mounted on said frame, a support extending downwardly from said frame and having secured thereto a plurality of ribs disposed substantially radially of an axis, which axis is substantially parallel to the axis of rotation of said rotatable drive means, a hub supported by the inner ends of said ribs, a propeller with substantially radially extending blades rotatably mounted on said hub, an annular member surrounding said propeller and secured thereto, a a continuous ilexible drive member trained over said annular member and in driving association therewith, said continuous llexible drive member being operatively associated with said rotatable drive means and driven thereby, a portion of said support forming an annular housing substantially surrounding said annular member, said annular housing having annular portions thereof positioned axially of both edges of said annular member, said annular member and said annular portions of said housing having their inner peripheral surfaces faired to delne a flow channel with the contour of a converging-diverging nozzle.

1l. A combination as set forth in claim 10 wherein said annular member is secured to the tips of said propeller blades, with the tips of said propeller blades positioned substantially at the throat of said convergingdiverging nozzle.

l2. In an outboard-type boat propelling device, a combination, with a frame arranged to be secured on a boat hull, of a rotatable drive means mounted on said frame, a support extending downwardly from said frame and having secured thereto a plurality of ribs disposed substantially radially of an axis, which axis is substantially parallel to the axis of rotation of said rotatable drive means, a hub supported by the inner ends of said ribs, a propeller with substantially radially extending blades rotatably mounted on said hub, an annular member surrounding said propeller and secured thereto, the outer periphery of said annular member having spaced teeth therein, a continuous llexible belt trained over said annular member and having teeth formed in the inner References Cited in the iile of this patent UNITED STATES PATENTS 851,389 Waterman Apr.` 23, 1907 8 Graves Apr. 16, Kort May 20, Freedlander Oct. 20, Waterval June 29, Waterval Dec. 29,

FOREIGN PATENTS Germany Nov. 26, France July 8,