US3922988A

US3922988A - Steering system for canoes and the like

Info

Publication number: US3922988A
Application number: US436157A
Authority: US
Inventors: Dolphus D Caton; John R Ralph
Original assignee: Individual
Current assignee: Individual
Priority date: 1973-02-15
Filing date: 1974-01-24
Publication date: 1975-12-02
Anticipated expiration: 1992-12-02

Abstract

A steering system for a boat such as a canoe or the like wherein the system comprises a frame that is detachably secured to the canoe''s end edge by an arcuate, channel-shaped sling. A rudder assembly having a pivotal rudder is detachably secured to the frame and controlled by a tiller and cable.

Description

United States Patent 1 1 Caton et al.

1 1 STEERING SYSTEM FOR CANOES AND THE LIKE [76] Inventors: Dolphus D. Caton, 149 Beebe Ave.;

John R. Ralph, 180 College Park Drive, Apt. B-9, both of Elyria, Ohio 44035 [22] Filed: Jan. 24, 1974 [211 App]. No.: 436,157

Related U.S. Application Data [62] Division of Ser. No. 332,674, Feb. 15, 1973, Pat. No.

[52] U.S. Cl 114/165; 114/165 [51] Int. Cl. B6311 25/02 [58] Field of Search l14/l62,165,152,153,

114/132, 128, 144 R, 144 M; 115/28 R, 29, 21, 22, 23, 25; 248/4 [56] References Cited UNITED STATES PATENTS 2,475,889 7/1949 Hafele 248/4 Dec.2,1975

Jones....

2,646,765 7/1953 Boles 115/22 3,001,502 9/1961 Stoker ll4/l67 3,645,483 2/1972 Bartosch et al 248/4 Primary Examiner-Trygve M. BliX Assistant Examiner-Charles E. Frankfort Attorney, Agent, or Firm-Bacon & Thomas 57 ABSTRACT A steering system for a boat such as a canoe or the like wherein the system comprises a frame that is detachably secured to the canoes end edge by an arcuate, channel-shaped sling. A rudder assembly having a pivotal rudder is detachably secured to the frame and controlled by a till'er and cable.

4 Claims, 13 Drawing Figures US. Patent Dec. 2, 1975 Sheet 1 of4 v 3,922,988

U.S. Patent Dec. 2, 1975 Sheet 2 of4 STEERING SYSTEM FOR CANOES AND THE LIKE This is a division of application Ser. No. 332,674, filed Feb. 15, 1973, now U.S. Pat. No. 3,844,243.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates generally to steering systems for boats such as canoes or the like which utilize rudders for directing the boats course or direction of travel. More particularly, the present invention relates to a steering system which is adapted particularly for use with the different kinds of canoes known in the prior art. The steering system is characterized by the presence of two rudders which are pivotally mounted against a spring bias such that they are adapted to flip up as a unit when the rudders encounter obstructions or obstacles beneath the surface of the water, thereby preventing damage to the steering system.

It is well known that canoes and similar type boats which are adapted particularly for use by one or two persons are utilized more frequently for travel over shallow waters which contain rocks, submerged logs and other dangerous obstructions beneath and close to the waters surface. The provision of any steering system which employs a rudder or similar downwardly projecting mecahnism for directing the course of the.

canoes travel over such shallow waters encounters the strong risk of damage to such apparatus when they strike a submerged obstruction. Further, due to the nature and relatively light weight of a boat such as a ca-- noe, it is highly desirable that any steering system to be" incorporated therewith be of the type that is easily attached to and removed from the canoe without the necessity of physically altering or adapting the boats basic structure. This permits the boat to be easily transported and utilized in the absence of an auxiliary steering system if so desired. In addition, it is sometimes highly desirable that a canoe or similar boat be steered by means of a system other than the standard canoe paddle when the individual within the boat desires to engage in other activities such as photography. As such, it is necessary to have a steering system which requires a minimum of maintenance and attention. Finally, should alight weight boat such as a canoe be utilized in conjunction with a sail and outriggers, it is of utmost importance that a strong and easily controllable steering system be present in this-situation from the standpoint of safety, especially whenmore than one person is participating in the sailing of the boat.

2. Description of the Prior Art The prior art is replete with examples and teachings of various forms of steering systems for boats which utilize some form of rudder arrangement. The particular use of a double rudder system is exemplified by the.

Rickard et al. U.S. Pat. No. 2,528,608 and the Specht U.S. Pat. No. 3,147,730. These patents both teach similar steering systems which utilize two rudders that areactuated by a control means remote from the general vicinity of the rudders. The concept of providing a rud--- der which is adapted to flip up out of the way when the rudder encounters an obstruction beneath the surface of the water is exemplified by the Patterson.U.S. Pat. No. 2,991,749 and Crabille U.S. Pat. No. 3,085,540. However, the systems disclosed by these patents, and

those similar systems well known in the prior art fail to.

provide for a strong and safe steering assembly which includes two rudders that are adapted to flip up out of the way when an obstruction is encountered. Further, they fail to teach a steering system which may be easily and quickly attached to a canoe or similar boat without the physical alteration or adaption of the craft to'the steering system. The present systems in the-prior art are basically permanent installations which are functionally limited and incapable of versatile applications.

It is therefore an object of the present invention to provide a strong and safe steering which is adapted to be easilyattached to or removed from the boat with which it is to be used.

Itis another object of the present invention to provide for a steering system which includes a rudder assembly having two rudders that are protected from damage despite the presence of obstructions beneath the surface of the water.

It is a further object of the invention to provide a steering system which is easily. adapted for use with many formsof boats such as canoes or the like without the need for altering or adapting the inherent physical characteristics of the boat.

It is yet another object of the present invention to provide a steering system which can be safely used by a lightweight boat such as a canoe or the like when more than one person is riding in the boat.

It is yet a further object of the present invention to provide for a steering system wherein the steering of the boat can be accomplished by the exercise of a minimum amount of attention and effort on the part of the person operating the system.

SUMMARY OF THE INVENTION The present invention serves to overcome the basic problems inherent with the steering systems of the prior art by providing for a steering system which comprises a frame that is easily attached to or removed from the canoe or similar boat without altering or adapting the basic structure of the boat to the system. A rudder assembly' is. pivotally attached to the frame and includes two rudders. A resilient means, such as a pair of coil springs, serves to bias the rudders downwardly in their operative position beneath the surface of the water. Either a pair of foot-operated pedals or a manuallyoperated tiller may be detachably secured to the thwart of the canoe for the purpose of controlling the angular positions of the rudders through a flexible cable system. The frame may be attached to any prior. art canoe by utilizing either a horizontal shaft which fits through the eyelet of the canoe or by utilizing a channel-shaped arcuate sling'which fits. over the end edge of the canoe when the latter is not provided with an eyelet.

' BRIEF DESCRIPTION OF THE DRAWINGS A full understanding of the construction of the present invention together with further novel features and advantages, will be had from the following detailed description of the preferred embodiments thereof, taken in conjunction with the attached drawings wherein;

FIG. 1 is a plan view of the steering assembly of the present invention; 1

FIG. 2 is a side elevational view of the steering assembly of FIG. 1;

3 the present invention;

FIG. 6 is a fragmentary vertical sectional view taken along the line 6-6 of FIG. 4

FIG. 7 is a rear elevational view, partly in section, taken along the line 7-7 of FIG. 4;

FIG. 8 is an enlarged fragmentary horizontal sectional view, taken along the line 8-8 of FIG. 7;

FIG. 9 is an enlarged vertical sectional view, taken along the line 9-9 of FIG. 1;

FIG. 10 is a transverse sectional view, taken along the line 10-10 of FIG. 9;

FIG. 11 is a fragmentary plan view of a second embodiment or modification of the steering assembly of the present invention;

FIG. 12 is a fragmentary side elevational view of the steering assembly of FIG. 11;

FIG. 13 is an enlarged fragmentary horizontal sectional view taken along the line 13-13 of FIG. 12.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring now to FIGS. 1 and 2, there is depicted an embodiment of the present invention as incorporated with a canoe 1. A canoe 1 may be of any standard form and is provided with a rear seat 3, a plurality of thwarts 5 and a front seat 7. The canoe 1 also includes a pair of side rails or gunwales 9 which taper both forwardly and rearwardly to intersect at a forward eye 11 and a rearward eye 13. As seen, the canoe 1 of this embodiment is provided with a sailing adaptation assembly which includes a mast and sail unit, indicated generally at 15, and an outrigger unit 17, the latter being provided for the purpose of stabilizing the canoe.

The steering system, indicated generally at 19, is shown detachably installed over the rear seat 3 and rear eyelet 13 of the canoe. The steering system 19 includes a generally rectangular-shaped frame means 21 provided ith a pair of cut-outs 23 at its forward corners for the purpose of resting upon and conforming to the shape of the canoes side rails 9. The rearward portion of the frame 21 is secured to the canoe 1 by means of a horizontal shaft 25 which is passed through the rear eyelet 13. Pivotally secured to the frame 21 is a rudder assembly, indicated generally at 27, and includes a pair of rudders 29 which are secured to the ends of a pair of rudder shafts 31. A pair of resilient means 31 in the form of elongated coil springs or the like are each secured at one end adjacent each of the rudder shafts 31 and have their other ends secured to the frame 21. In this manner, the resilient means 33 serve to bias the rudder assembly 27 downwardly in a substantially vertical operative position. However, as indicated in FIG. 2, should the rudders 29 or rudder shafts 31 strike an obstruction beneath the surface of the water, the entire rudder assembly 27 is adapted to pivot upwardly and substantially outwardly from beneath the water level 35 into an inoperative position. The upper ends of the rudder shafts 31 are provided with a pair of steering arms 37 which are operatively connected to the control means located in front of the rear seat 3 of the canoe through a pair of flexible cable means 39.

The rudder control means, shown generally at 41, is more specifically depicted in FIGS. 9 and 10. As shown, the control means 41 includes an integral frame 43 which is adapted to be detachably secured to the canoes rear seat 3 and thwart 5 by means of a plurality of bracket assemblies 45. The brackets 45 may comprise a pair of flanged, U-shaped plate members 47 which are secured together with wing nut and bolt assemblies 49 many suitable equivalent locking assemblies which can be easily assembled and disassembled. A pair of foot pedals51 provided with a pair of associated heel plates 53 are pivotally secured by a pair of pivot pins 55 or the like to the frame 43. Extending laterally outwardly from the upper ends of the foot pedals 51 are a pair of extension plates 57 which are provided with a pair of eyelet nut and bolt assemblies 59. The ends of the control cables 39 are secured to the eyelets of the assemblies 59 and pass upwardly through a pair of pulleys or sheaves 61 which are mounted onto the brackets 45 through plate support means 63. The control cables 39 pass over the pulley 61 and are connected at their other ends to the steering arms 37 as previously indicated.

The frame means 21 and the rudder assembly 27 pivotally secured thereto are depicted in detail in FIGS. 5 through 7. The horizontal shaft 25 which secures the frame 21 to the canoe 1 through its rear eyelet 13 also serves to receive pivotally thereon a pair of sleeves 65 of the rudder assembly 27. Welded to the sleeves 65 are a pair of angle-shaped rudder shaft housings 67 through which the rudder shafts 31 are supported for rotational movement. A pair of lower stop collars 69 and a pair of upper stop collars 71 serve to locate and secure the rotatable shafts 31 within the housings 67. Welded to and extending rearwardly from the shaft housings are a first pair of support arms 71. Pivotally joining the outer ends of support arms 71 is a first rod 73 which serves the dual function of spacing and stabilizing the pair of shaft housings 67. Located directly below and spaced parallel from the first pair of support arms 71 are a second pair of support arms 75 which extend outwardly in a manner similar to that of support arms 73. Pivotally joining the outer ends of support arms 75 is a second rod 77 which serves as a steering control arm means for the two rudder shafts 31. The first pair of support arms 71 are provided with suitable nut and bolt assemblies 79 which serve to secure the ends of the resilient means 33 to the rudder assembly 27. Likewise, a pair of eyelet bolt and assembly means 81 serve to secure the other ends of the resilient means 33 to the frame 21. The steering arms 37 incude a pair of substantially right angle shaped threaded sections 37 having one pair of the right angle leg sections welded to the upper ends of the rudder shafts 31. The other right angle leg portions of sections 83 are provided with hollow threaded ends which receive a pair of eyelet bolts 85. The ends of control cables 39 are secured to eyelets 85 by means of snap connectors 87 or similar easily detachable connection means.

FIGS. 8 and 9 depict in detail a latching mechanism, indicated generally at 89, which serves to detachably secure the above described steering assembly to the canoe 1. The latching assembly mechanism 89 includes a pivotal angle shaped latch member 91 which is secured to the frame 21 by a nut and bolt assembly 93. Fixed to the underside of the latching member 91 is a magnet 95 which is adapted to secure onto the surface of frame 21 when the latch member 91 is in a closed position. The horizontal shaft 25 is provided with a flanged head 97 which has a larger diameter than the sleeve bearings 99 secured to the frame 21 and through which the shaft 25 is slidably received. When the latch member 91 is in its closed position as shown in FIGS. 8 and 9, it serves to retain the head 97 of the horizontal shaft 25 firmly against the wall of the frame 21, thereby 5. preventing accidental dislodging or the slidable horizontal shaft 25.

FIG. depicts the mechanism which s'ervesto limit the rotational movement of the" rudder shafts 31, thereby preventing uncontrollable locking or damage to the rudder assembly. The lower portions of rudder shaft housings 67, directly adjacent lower sto'p collars 69, are provided with two pairs of stop, members 101. Threadedly secured to the rudder shafts 31 directly adjacent stop members 101 are a pair of stop pins 103. As is evident in FIG. 10, rotational movement of the rudder shafts 31 are limited to a maximum arcuate displacement of approximately 120 due to the engagement of stop pins 103 against the respective pairs of a stop members 101. I

Another embodiment of the presentinvention is depicted in FIGS. 11 through The canoe 200 in this case is of the type which does not have front and rear eyelets. As such, the rudder assembly, indicated generally at 203, of this embodiment is securedto the rear end 205 of the canoe 200 by a sling assembly means indicated generally at 207. The sling assembly means 207 includes a pair of arcuate-shaped members 209 which are joined in a spaced apart manner by welding a plurality of spacers 211 to the outer edges thereof. The sling 207 is adapted to fit over the arcuate-shaped end edge 213 of the canoe and is supported thereon by means of the spacer plates 211. Welded to the sling 207 and extending outwardly and transversely therefrom.

are a pair of upper support braces 2 15 and a pair of lower support braces. 217. A generally rectangularshaped first frame means 219 is welded to the outer ends of the first pair of support bars 215. The rudder assembly 203 is is detachably secured to first frame means 219 by a horizontal shaft 220 in the exact same manner as indicated for the first embodiment and clearly depicted in FIG. 5. Located directly-below and spaced from the. first frame means 219 is a second frame means 221 which is welded to the outer ends of the second pair of support bars 217. Asseen in FIG. 12, the forward extending portion of second frame means 221 includes two longitudinal braces 223 that are angled upwardly from the horizontal to join with a pair of. horizontal braces 225 extending forwardly from the first frame means 219. A horizontal connection plate 227 is provided with threaded end sections 229 for receiving threaded pins 231. The pins 231 serve to secure the apertured ends 233 and 235 of the pairs of

straps

223 and 225, respectively. As is indicated, magnetic latching mechanisms 237, similar to the latching mechanism described for the first embodiment, may be utilized for the purpose of securing pins 231 against accidental dislodging.

As in the case of the first embodiment, the steering system of the second embodiment is also provided with a pair of steering arms 239 which are correspondingly secured to a pair of rudder shafts 241 in the same manner. However, a single control cable 243 is provided having a pair of ends 245 secured to the steering arms 239. The middle portion of control cable 243 is caused to pass around a pair of pulleys 247 which are clamped to the thwart 249 of canoe 200 by means of clamps 251 having the same basic construction as the clamps utilized in the first embodiment. Also secured to the thwart 249 by a similar clamp means 253 is a manually operated pivotal tiller assembly 255. The tiller assembly 255 may be of any type of tiller well known in the art for performing the required function. The control 6, cable 243 is joinedwiththetiller assembly 255 such that pivoting of the tiller handle 257 causes the respective ends 245 of the control cable 243 to impart syn-' chronized rotational movement to the steering arms 239 and therefore to the rudder shaft 241. However, it.

is to be understood .thatthe tiller arrangement for actuating the control cable of the second embodiment can be substitutedwith the foot pedal mechanism described for the first embodimenteandvice versa.

FIGS; 11 and: 12 depict a pair of rudders, indicated generally;at 300, weldedtothe ruddershafts 241. As shown, rudders300 include a pair of standard vertical rudden-plates 30l.having a-:pair of deflector plates 303 secured thereto by welding,- such that the planar surfaces of deflector plates 303 intersect the planar surfaces of rudder plate 301 at substantially right angles. When the rudder shafts 241 are in their downward operative position, the deflector plates 303 assume a rearwardly extending angular position of approximately 10 above the horizontal. The rearwardly extending portions of deflector plates 303 flare outwardly and terminate in a pair of upwardly curved edge portions 305. By virtur'e of this design andconstruction, rudders 300 'assist in maintaining the rudder assembly downwardly in its operative position notwithstanding the presence of water current pressures which tend to force the assembly upwardly, especially when rotational movement is imparted to the rudder shafts. It is to be understood tha'tthe rudder modification construction of rudders 300 may similarly be incorporated in the rudder assem-' bly described for the first embodiment and vice versa.

The materials employed'for the construction of the steering assembly for the two embodiments described may be those well known in the prior art as being suitable for the operating conditions and environments encountered by the present invention. Stainless steel, aluminum' or similar .noncorrosive metals may be utilized to advantage. Also, man made synthetic materials such as plastics and the like may also be utilized. The joining of the basic component parts making up the steering assembly may be effected by welding, bolting or any other suitable means well. known in the prior art.

Basic Mode of Operation The steering assembly of the present invention may be utilized with a canoe which includes a sailing adaptation kit. However, the present invention can also be utilized when it is desired to paddle the canoe in the conventional manner in the absence of a sailing adaptation kit. In the case of the first embodiment, the steering assembly is attached to the rear end of the canoe by placing the frame assembly 21 such that the cut out portions 23 rests upon the side rails or gunwales 9 of the canoe. The rudder assembly is placed beneath the frame such that the sleeve 65 coincide with the openings in the bearings 99. The horizontal shaft 25 is then inserted through the bearings 99, sleeve 65 and the eyelet 13 of the canoe. Latching member 91 is then closed over the head 97 of the horizontal shafts to secure it in place. The four clamps 45 are then attached to the seat 3 and its adjacent thwart 5 of the canoe by means of nut and bolt assemblies 49. Since the bracket 43 is secured to the clamps 45, it is therefore located in position within the lower portion of the canoes interior such that the foot pedals 51 will receive the feet of the person seated in rear seat 3. The steering assemblyis completed by attaching control cables 39 from the eyelets 59 of the foot pedals to the eyelets of the steering 7 arms. By alternately manipulating the foot pedals 51, the person sitting on rear seat 3 will effect coordinated rotational movement of the rudder shafts 31 which in turn cause parallel angular deflection of rudders 29, thereby directing the course of the canoes travel.

Similarly, the steering assembly of the second embodiment may be utilized when the canoe is of the type which does not have eyelets at its opposite ends. In this case, the steering system of the second embodiment is placed over the rear end edge 213 of the canoe such that the channel-shaped sling 207 fits snugly therearound. The straps 223 are brought together on either side of the canoe 200 such that their

ends

233 and 235 are coincidental so that threaded pins 231 may be inserted into the apertures 229. The pins 231 are guarded against accidental dislodging. The clamps 251 are secured to the thwart 249 of the canoe and, likewise, the tiller assembly 255 is secured to thwart 249 by means of clamp 253. A single control cable 243 is secured at one end 245 to one of the steering arms and the other end is threaded through pulleys 247 and subsequently brought around for connection to the other steering arm. Directional guidance of the canoe is achieved by pivoting the tiller handle 257, thereby imparting synchronized rotational movement to the steering arms 239 which in turn rotate the rudder shafts 241 with rudders 300 secured to the ends thereof.

As in the case of both embodiments, should the lower portions of the rudder assemblies strike an obstruction or obstacle beneath the surface of the water, the entire rudder assembly is caus d to pivot upwardly with respect to the frame upon which it is pivotally mounted. In this manner, the obstruction or obstacle is cleared, thereby preventing damage to the rudder assembly. By virture of the resilient means connecting the rudder assembly to the frame, the rudder assembly is caused to pivot back downwardly into its normal operative position when the obstruction or obstacle has been bypassed.

It is to be understood that changes and additions may be made to the embodiments of the present invention by those skilled in the art without departing from the basic scope and spirit of the invention.

What is claimed is:

1. A steering system for a boat such as a canoe or the like having an end edge, a thwart and gunwales, which system comprises, in combination:

a. a substantially rectangular frame supported across the gunwales of the canoe;

b. an arcuate channel-shaped sling for detachably securing the frame to the end edge of the canoe;

c. a rudder assembly including at least one sleeve;

(1. a horizontal bar supported at its ends by the frame and joumaled within the sleeve for pivotally supporting the rudder assembly between a downward operative position and an upward inoperative position;

e. latching means associated with the frame for detachably securing the horizontal bar thereto and preventing accidental removal of the bar;

f. resilient means for biasing the rudder assembly in the downward operative position; and

g. control means operatively connected to the rudder assembly for steering the canoe.

2. The steering system of claim 1 wherein the rudder assembly further includes:

a. a pair of rudder shafts with each shaft having a rudder secured at its lower end;

b. a pair of shaft housings supporting the rudder shafts for rotational movement;

c. a steering arm secured to the upper end of each rudder shaft;

(1. a'first means for joining the shaft housings together for spacing and stabilizing the housings; and

e. a second means for joining the rudder shafts together for controlling the rotational movement of the shafts.

3. The steering system of claim 1 wherein the rudder assembly control means includes:

a. a pivotal tiller;

b. clamping means for detachably securing the tiller to a thwart of the canoe; and

c. a cable joining the tiller to the rudder assembly for the control thereof.

4. The steering system of claim 2 wherein each rudde'r includes a deflector plate secured thereto such that the planar surface of the rudder intersects the planar surface of the deflector plate at substantially a an-

Claims

1. A steering system for a boat such as a canoe or the like having an end edge, a thwart and gunwales, which system comprises, in combination: a. a substantially rectangular frame supported across the gunwales of the canoe; b. an arcuate channel-shaped sling for detachably securing the frame to the end edge of the canoe; c. a rudder assembly including at least one sleeve; d. a horizontal bar supported at its ends by the frame and journaled within the sleeve for pivotally supporting the rudder assembly between a downward operative position and an upward inoperative position; e. latching means associated with the frame for detachably securing the horizontal bar thereto and preventing accidental removal of the bar; f. resilient means for biasing the rudder assembly in the downward operative position; and g. control means operatively connected to the rudder assembly for steering the canoe.

2. The steering system of claim 1 wherein the rudder assembly further includes: a. a pair of rudder shafts with each shaft having a rudder secured at its lower end; b. a pair of shaft housings supporting the rudder shafts for rotational movement; c. a steering arm secured to the upper end of each rudder shaft; d. a first means for joining the shaft housings together for spacing and stabilizing the housings; and e. a second means for joining the rudder shafts together for controlling the rotational movement of the shafts.

3. The steering system of claim 1 wherein the rudder assembly control means includes: a. a pivotal tiller; b. clamping means for detachably securing the tiller to a thwart of the canoe; and c. a cable joining the tiller to the rudder assembly for the control thereof.

4. The steering system of claim 2 wherein each rudder includes a deflector plate secured thereto such that the planar surface of the rudder intersects the planar surface of the deflector plate at substantially a 90* angle.