The disclosed embodiments relates generally to marine propulsion systems. More particularly, the invention relates to apparatus for securely mounting an outboard motor on a centerline of a transom, such that straight-line propulsion is maintained by preventing movement of the outboard motor from the centerline of the transom.
A transom is the transverse, vertical section that makes up the rear, or stern of a boat directly opposite the bow. Depending upon boat architecture, a boat propulsion system may include an outboard motor mounted on the transom. Outboard motors generally have bracket arms to embrace portions of the transom and include adjustable clamping members to secure the outboard motor to the transom.
To protect the transom, a transom plate mounts to the transom and the outboard motor is mounted to the transom plate. In order for the boat to maintain a straight line of travel the position of an outboard motor must be maintained at the center point on the transom.
In certain applications, e.g., Rubber Inflatable Boats (RIBs) running at high speed, quickly placing and securing an outboard motor, or multiple motors, exactly on the centerline of the transom is difficult. Furthermore, high speed operation through rough water may tend to shift an outboard motor from the centerline causing the boat to veer off course.
The embodiments are described in detail in the following description with reference to the following figures. The figures illustrate examples of the embodiments.
A transom plate, as described below, allows for quick and accurate mounting of an outboard motor (hereinafter “motor”) to a centerline of a transom.
For simplicity and illustrative purposes, the principles of the embodiments are described by referring mainly to examples thereof. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It is apparent that the embodiments may be practiced without limitation to all the specific details.
Mounting portions 102 allow for mounting the plate 100 at different vertical location on the transom 202. The plate 100 is constructed of a material impervious to rust or corrosion, including, but not limited to aluminum, composites, and plastics.
The plate 100 includes a generally flat rectangular surface 104 having a centerline marking 106 disposed at a centerline 107 between a left side 116 and a right side 118 of the plate 100. Centerline marking 106 facilitates centering the plate 100 at a centerline of the transom 202.
An indentation 108 is formed within the surface 104 of plate 100 centered at the centerline 107 of the plate 100 and at a distance 128 below a top edge 130 of the plate 100. Indentation 108 has a length, width, and depth operable to receive motor clamping members 204 and is based upon the specific size and shape of the motor 208. Indentation 108 defines a shoulder 110. Shoulder 110 prevents a motor 208, mounted within the indentation 108, from shifting position and driving the boat off course.
Once the motor clamping members 204 are tightened, indentation 108 is operable to maintain the motor at the centerline 107 of the plate 100. Because the plate 100 is securely mounted to the centerline 210 of the transom 202, a desired course may be more easily maintained at low and high speed, and in calm and rough seas.
In an example, a mounting guide 112 extends from the upper left side 116 and upper right side 118 of surface 104 forms a surface upon which adjustable clamping members 304 of motor 208 may be rested upon when initially mounting the motor 208 to the plate 100. In other embodiments, plate 100 does not include mounting guide 112 and the motor 208 is placed directly in indentation 108.
In an example, the mounting guide 112 is formed by a flange curving downwards from the upper left and rights sides, 116, 118, of the plate 100, forming an extended bottom edge 120 of the indentation 108. The downward curving mounting guide 112 facilitates sliding the motor 208 to the indentation 108 at the centerline 107, where the clamping members 204 are securely fastened to the plate 100 within the indentation 108.
The mounting guide 112 extends laterally from the surface 104 of the plate 100 and has a width and depth sufficient to support the motor 208 while guiding the motor 208 to the indentation 108. In embodiments, mounting guide 112 has a width and a depth of approximately one-half inch to support a motor 208 of approximately 40-50 HP.
A slot 122 in the mounting guide 112 is formed at the indentation 108 to direct a flow of any water draining from the installed motor 208. In embodiments, the slot 122 is formed at the centerline 107 of the plate 100.
Similar to the transom plate 100 depicted in
Slots 414 in the mounting guide 406 permit water to drain from the motors. In the disclosed embodiments, slots 414 are disposed in the bottom edge of the indentations 404.
Generally, the larger horsepower of the engine, the lower the motor is positioned on the transom.
In an example, indentation 502 is formed at a first distance D1 from an edge 506 of transom mounting plate 500 to support a outboard motor having a first horsepower rating. Indentation 508 is formed at a distance D2 from edge 510 different than the indentation 502 in order to mount an outboard motor having a horsepower rating different than the first outboard motor. Guides 512 and 514 are operable to guide the outboard motor to respective indentations 502 and 508 depending upon the orientation of the transom mounting plate 500. Guides 512 and 514 merge at indentations 502 and 508 and a slot 518 is formed in the merged guides 512 and 514 near the centerline 516 and permit water to drain from a motor mounted in either of indentations 502 and 508.
Securing mounting (step 602) transom mounting plate 100 to a centerline of the transom indicated by centerline marking 106 indicating the centerline 107 of the transom mounting plate 100.
In an example, transom mounting plate 100 includes guide 112 and motor 208 is placed on the guide 112 (step 604). At step 606, the motor 208 is urged along the guide 112 towards indentation 108. At step 608, motor clamping members 204 are tightened within the indentation 108 to secure the motor 208 to the center of the transom.
While the foregoing disclosure shows illustrative embodiments, it should be noted that various changes and modifications could be made herein without departing from the scope of the described embodiments as defined by the appended claims.
The present Application for Patent claims priority to U.S. Provisional Application No. 62/280,604 entitled “Outboard Motor Transom Plate” filed Jan. 19, 2016, assigned to the assignee hereof and hereby expressly incorporated by reference herein.
Number | Name | Date | Kind |
---|---|---|---|
2527904 | Baldwin | Oct 1950 | A |
2738751 | Hogberg | Mar 1956 | A |
3003725 | Woolbright | Oct 1961 | A |
3025028 | Corbin, Jr. | Mar 1962 | A |
3033153 | Nelson | May 1962 | A |
3943877 | Kemp | Mar 1976 | A |
4955963 | Snyder | Sep 1990 | A |
4966347 | Mapes | Oct 1990 | A |
Number | Date | Country | |
---|---|---|---|
20170203825 A1 | Jul 2017 | US |
Number | Date | Country | |
---|---|---|---|
62280604 | Jan 2016 | US |