1. Field of the Invention
This present invention generally relates to a rowing boat foot support assembly. More specifically, the present invention relates to a rowing boat foot support assembly that includes a shoe attachment member for securing a rower's shoe to a foot rest.
2. Background Information
Rowing is becoming an increasingly more popular form of recreation. Moreover, rowing has become a very popular competitive sport for both amateurs and professionals. Whether rowing is for recreation or competition, the rowing industry is constantly improving the various components of rowing boats and equipment used by rowing enthusiasts. One component that has been extensively redesigned is the rowing boat footrest.
Traditionally, the footrest in a rowboat is an angled surface upon which a rower can brace his or her feet to provide increased power during the rowing process. Recently, footrests have been provided with simple shoe retaining straps or retaining mechanisms that hold a rower's shoe against the surface of the footrest. While these footrests work well, they have various drawbacks. For example, some of the shoe retaining mechanisms are not easily attached to and/or released from the rower's shoe.
In view of the above, it will be apparent to those skilled in the art from this disclosure that there exists a need for an improved rowing boat foot support assembly that allows for easily attached to and/or released from the rower's shoe. This invention addresses this need in the art as well as other needs, which will become apparent to those skilled in the art from this disclosure.
One object of the present invention is to provide a rowing boat foot support assembly that allows for the rower's shoe to be the easily attached to and/or released from a shoe attachment member (e.g., a shoe retaining mechanism).
In accordance with one aspect, a rowing boat foot support assembly is provided that basically comprises a support member, a shoe attachment member and a release trigger mechanism. The support member is configured to be coupled to a rowing boat. The shoe attachment member is pivotally supported on the support member. The shoe attachment member includes a base portion and a movable fixing portion that is movably arranged with respect to the base portion between a shoe retaining position and a shoe releasing position. The release trigger mechanism is provided between the support member and the movable fixing portion to move the movable fixing portion from the shoe retaining position to the shoe releasing position.
In accordance with another aspect, a rowing boat foot support assembly is provided that basically comprises a support member, a shoe attachment member and a float member. The support member is configured to be coupled to a rowing boat. The shoe attachment member is supported on the support member. The shoe attachment member includes a base portion, a movably front fixing portion and a movably rear fixing portion. The front fixing portion is movably with respect to the base portion between a shoe retaining position and a shoe insertion position. The rear shoe fixing portion is movably with respect to the base portion between a shoe retaining position and a shoe releasing position.
In accordance with yet another aspect, a rowing boat foot support assembly is provided that basically comprises a support member, a shoe attachment member and a float member. The support member is configured to be coupled to a rowing boat. The shoe attachment member is supported on the support member. The shoe attachment member includes a base portion and a movable fixing portion that is movably arranged with respect to the base portion between a shoe retaining position and a shoe releasing position. The float member is operatively coupled to the movable fixing portion by a connecting member that is arranged to move the movable fixing portion from the shoe retaining position to the shoe releasing position.
These and other objects, features, aspects and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses preferred embodiments.
Referring now to the attached drawings which form a part of this original disclosure:
Selected embodiments of the present invention will now be explained with reference to the drawings. It will be apparent to those skilled in the art from this disclosure that the following descriptions of the embodiments of the present invention are provided for illustration only and not for the purpose of limiting the invention as defined by the appended claims and their equivalents.
Referring initially to
Still referring to
Basically, the seat support portion 20 includes a pair of parallel rails 20a disposed on either side of the rowing boat 10 that support the seat 18. The seat 18 includes bearing portions such as rolling wheels or bushing surfaces that allow the seat 18 to slide smoothly in a longitudinal direction of the rowing boat 10 along the parallel rails 20a.
Basically, the foot support portion 22 includes a pair of upper rails 22a and a lower rail 22b. Preferably, the upper rails 22a are each arranged parallel to one another along the side of the rowing boat 10. The lower rail 22b can be centered along the floor of the rowing boat 10, and arranged parallel to the upper rails 22a. In the depicted embodiment, the rail 22b is equidistant from the upper rails 22a, but is lower that the rails 22a.
Referring now to
Turning to
Preferably, as seen in
As seen in
The shoe attachment members 26 can basically be a conventional step-in type shoe attachment mechanism such as those used on bicycles so long as they have a movable fixing portion that is movably arranged with respect to the base portion between a shoe retaining position and a shoe releasing position. Specifically, each of the shoe attachment members 26 can be a step-in type shoe attachment mechanism, such as those disclosed in, for example, U.S. Pat. No. 6,119,551, U.S. Pat. No. 6,490,948, and U.S. Pat. No. 6,925,908. In fact, each of the shoe attachment members 26 of the first illustrated embodiment includes a base member or portion 50, a front clamping member 52, a rear clamping member 54 and a biasing member 56 in which the members 52, 54 and 56 are the same as those shown in U.S. Pat. No. 6,490,948, except that the rear clamping member 54 has been modified to include a part of a release trigger mechanism 60 as discussed below. Accordingly, the clamping members 52 and 54 constitute fixing portions of the shoe attachment member 26 with the rear clamping member 54 being a movable fixing portion in this embodiment. The front clamping member 52 is attached to the base member 50 in a non-movable manner, while the rear clamping member 54 is pivotally attached to the base member 50. The rear clamping member 54 (e.g., the movable fixing portion) is disposed rearward of the front clamping member 52 to define a shoe (cleat) receiving area therebetween. In this embodiment, the front clamping member 52 is non-movably with respect to the base member 50.
The biasing member 56 is preferably a pair of torsion springs that are disposed on a pivot axle that pivotally mounts the rear clamping member 54 to the base member 50. Each to the torsion springs of the biasing member 56 has one end operatively engaged with the base member 50 and the other end operatively engaged with the rear clamping member 54 to urge the rear clamping member 54 from the shoe releasing position to the shoe retaining position.
Moreover, each of the shoes S has a cleat or attachment member 62 that is fixed attached to the bottom sole portion of each of the shoes S. The cleats 62 for the shoe attachment members 26 of the first illustrated embodiment are identical to the ones shown in U.S. Pat. No. 6,490,948. The clamping members 52 and 54 engage the cleats 62 to secure the shoes S to the base member 50, which is fixedly secured to the U-shaped swinging footrests 38. More specifically, to secure one of the cleats 62 to one of the shoe attachment members 26, the rower R will insert a front end 64 of the one of the cleats 62 beneath the front clamping member 52 and then step down on the shoe attachment members 26 so that a rear end 66 of the cleat 62 will contact a forward edge of the rear clamping member 54 to pivot the rear clamping member 54 in a rearward direction against the biasing force of the biasing member 56. Once the rear end 66 of the cleat 62 passes over the forward edge of the rear clamping member 54 the biasing force of the biasing member 56 pivots the rear clamping member 54 in a forward direction to grip the rear end 66 of the cleat 62.
As best seen in
The stoppers 70 are fixed to the support member 24 and the projections 54a are fixed to the rear clamping members 54 of the shoe attachment members 26, with a free space disposed between the stoppers 70 and the projections 54a while the shoe attachment members 26 are within the prescribed pivotal rowing range. The stoppers 70 and the projections 54a contact while the shoe attachment members 26 are in extended pivotal positions that are outside of a prescribed pivotal rowing range.
The stoppers 70 are preferably positioned on the inclined U-shaped support bar 32 to move the rear clamping member 54 (e.g., the movable fixing portion) from the shoe retaining position to the shoe releasing position in response to pivotal movement of the shoe attachment members 26 outside of the prescribed pivotal rowing range. More specifically, the projections 54a of the rear clamping members 54 of the shoe attachment members 26 will engage the stoppers 70 for releasing the cleats 62 of the shoes S when the shoe attachment members 26 are pivoted outside of the prescribed pivotal rowing range. In the illustrated embodiment, as seen in
Accordingly, the prescribed pivotal rowing range in this embodiment is twenty-five degrees, which corresponds a normal range of motion for the U-shaped swinging footrests 38 when the rower is performing a normal rowing operation as seen in
As seen in
In any event, the connecting member or tether 74 is connected between at least one of the rear clamping members 54 and the float member 72 so that a pulling movement of the float member 72 with respect to the rear clamping member 54 causes the rear clamping member 54 to move from the shoe retaining position to the shoe releasing position in response to a pulling movement of the float member 72 with respect to the rear clamping member 54.
Referring now to
In this embodiment, for each of the shoe attachment member, the support member 24 is provided with a stopper 170, which is a tether in the form of a string, and the rear clamping member 154 is provided with a pair of projections 154a with a cross member 155 laterally connecting the projections 154a so as to form an integrated projection. The cross member 155 of the integrated projection has a hole 155a for securing stopper 170 (e.g., the string type tether). Preferably, the tether 74 of the float 72 is coupled to the cross member 155 of the rear clamping members 154. The stopper 170 (e.g., the string type tether) has a prescribed length permitting pivotal movement of the shoe attachment members without moving the rear clamping member 154 of the shoe attachment member while the shoe attachment member is within the prescribed pivotal rowing range (up to twenty-five degrees), and with the prescribed length of the stopper 170 (e.g., the string type tether) being such that the rear clamping member 154 of the shoe attachment member moves from the shoe retaining position to the shoe releasing position while the shoe attachment member is moved to an extended pivotal position (thirty-four degrees) that is outside of the prescribed pivotal rowing range.
Referring now to
In this embodiment, for each of the shoe attachment member, the support member 24 is provided with a stopper 270, which is a tether in the form of a cable, and the rear clamping member 254 is provided with a pair of projections 254a with a cross member 255 laterally connecting the projections 254a so as to form an integrated projection. The cross member 255 of the integrated projection has a hole 255a with a bolt 255b for securing stopper 270 (e.g., the cable type tether). Preferably, the tether 74 of the float 72 is coupled to the cross member 255 of the rear clamping members 254. The stopper 270 (e.g., the cable type tether) has a prescribed length permitting pivotal movement of the shoe attachment members without moving the rear clamping member 254 of the shoe attachment member while the shoe attachment member is within the prescribed pivotal rowing range (up to twenty-five degrees), and with the prescribed length of the stopper 270 (e.g., the cable type tether) being such that the rear clamping member 254 of the shoe attachment member moves from the shoe retaining position to the shoe releasing position while the shoe attachment member is moved to an extended pivotal position (thirty-four degrees) that is outside of the prescribed pivotal rowing range.
Referring now to
In this embodiment, for each of the shoe attachment member, the support member 24 is provided with a stopper 370, which is a tether in the form of a rigid rod, and the rear clamping member 354 is provided with a pair of projections 354a with a cross member 355 laterally connecting the projections 354a so as to form an integrated projection. The cross member 355 can pivot with respect the projections 354a. The cross member 355 of the integrated projection has a hole 255a with a slide part 370a of the stopper 370 (e.g., the rigid rod type tether) disposed in the hole 255a of the cross member 355. Preferably, the tether 74 of the float 72 is coupled to the cross member 355 of the rear clamping members 354. The stopper 370 is provided with a first contact part 370b at one end of the slide part 370a and a second contact part 370b at the other end of the slide part 370a. The stopper 370 (e.g., the rigid rod type tether) permits pivotal movement of the shoe attachment member without moving the rear clamping member 354 of the shoe attachment member while the shoe attachment member is within the prescribed pivotal rowing range (up to twenty-five degrees), and with the contact parts of the stopper contacting the rear clamping member 354 of the shoe attachment member to move the rear clamping member 354 of the shoe attachment member from the shoe retaining position to the shoe releasing position while the shoe attachment member is moved to an extended pivotal position (thirty-four degrees) that is outside of the prescribed pivotal rowing range.
Referring now to
In this embodiment, the front clamping member 152 is movably with respect to the base member 50 between a shoe retaining position and a shoe insertion position. The rear clamping member 154 is also movably with respect to the base member 50 between the shoe retaining position and the shoe releasing position as discussed above with respect to the second embodiment. This arrangement allows the rower R to insert the rear end 66 of the one of the cleats 62 beneath the rear clamping member 54 and then step down on the shoe attachment members 26 so that the front end 64 of the cleat 62 will contact a rear edge of the front clamping member 52 to pivot the front clamping member 52 in a forward direction against a biasing force of the biasing member 157. Once the front end 64 of the cleat 62 passes over the rear edge of the front clamping member 52 the biasing force of the biasing member 157 pivots the front clamping member 52 in a rearward direction to grip the front end 64 of the cleat 62.
Referring now to
In this embodiment, the front clamping member 152 is movably with respect to the base member 50 between a shoe retaining position and a shoe insertion position as discussed above with respect to the fifth embodiment. The rear clamping member 254 is also movably with respect to the base member 50 between the shoe retaining position and the shoe releasing position as discussed above with respect to the third embodiment. This embodiment combines the benefits of the third and fifth embodiments.
Referring now to
In this embodiment, the front clamping member 152 is movably with respect to the base member 50 between a shoe retaining position and a shoe insertion position as discussed above with respect to the fifth embodiment. The rear clamping member 354 is also movably with respect to the base member 50 between the shoe retaining position and the shoe releasing position as discussed above with respect to the fourth embodiment. This embodiment combines the benefits of the fourth and fifth embodiments.
Referring now to
In this embodiment, the single inclined bar 432 (e.g., a stationary part), the crossbar 434 (e.g., a connecting part) and the stoppers 470 form part of a support member that is adjustably fixed to the row boat 10. Basically, the crossbar 434 has a first end pivotally coupled to the stationary part about a pivot axis B, and a second end coupled to the shoe attachment member 426 to support the shoe attachment member 426 for pivotal movement with respect to the single inclined bar 432 (e.g., a stationary part) about the pivot axis B. In this embodiment, the shoe attachment member 426 also pivots about a pivot axis C that is perpendicular to the pivot axis B. Alternatively, the shoe attachment member 426 can be rigidly fixed to the second end coupled to the shoe attachment member 426 at a prescribed angle as needed and/or desired.
Preferably, the single inclined bar 432 (e.g., a stationary part) is provided with a slot 432a that receives the crossbar 434 (e.g., a connecting part) therein. This slot 432a allows for the crossbar 434 to pivot about the pivot axis B for a prescribed range of pivotal movement in order for the rower R to perform a releasing operation by pivoting the shoe attachment members 426 with respect to the single inclined bar 432 (e.g., a stationary part) about the pivot axis B.
Each of the shoe attachment members 426 of this illustrated embodiment includes a base member or portion 450 with a spindle 451, a front clamping member 452, a rear clamping member 454, a pair of biasing members 456. The spindle 451 has one end fixed to the crossbar 434 and the other end pivotally supporting the base member 450, similar to a conventional bicycle pedal. Accordingly, the clamping members 452 and 454 constitute fixing portions of the shoe attachment member 426 with the clamping members 452 and 454 being movable fixing portions in this embodiment. The clamping members 452 and 454 are pivotally attached to the base member 450. The biasing members 456 preferably include one or more torsion springs that are disposed on a pivot axle that pivotally mounts the clamping members 452 and 454 to the base member 450.
Each torsion spring of the biasing members 456 has one end operatively engaged with the base member 450 and the other end operatively engaged with one of the clamping members 452 and 454 to urge the clamping members 452 and 454 from the shoe inserting or releasing position to the shoe retaining position. The rear clamping member 454 is disposed rearward of the front clamping member 452 to define a shoe (cleat) receiving area therebetween. The clamping members 452 and 454 have projections 452a and 454a, respectively, for contacting the stoppers 470, when the rower pivots the shoe attachment members 426 about the axis B. Thus, pivoting the shoe attachment members 426 about the axis B causes one of the projections 452a and 454a of each of the shoe attachment members 426 to contact one of the stoppers 470 to perform a shoe releasing operation. In other words, in response to the pivotal movement of the shoe attachment members 426 with respect to the single inclined bar 432 (e.g., a stationary part) about the pivot axis B, one of the projections 452a and 454a of each of the shoe attachment members 426 contacts one of the stoppers 470 to perform a shoe releasing operation. Preferably, the tether 74 of the float 72 is coupled to one of the projections 452a and 454a of each of the shoe attachment members 426.
Referring now to
In this embodiment, the single inclined bar 532 (e.g., a stationary part), the crossbar 534 (e.g., a connecting part) and the stopper 570 form part of a support member that is adjustably fixed to the row boat 10. Basically, the crossbar 534 has a first end rigidly coupled to the single inclined bar 532, and a second end pivotally coupled to the shoe attachment member 526 to support the shoe attachment member 526 for pivotal movement with respect to the crossbar 534 about the pivot axis C.
Each of the shoe attachment members 526 of this illustrated embodiment includes a base member or portion 550 with a spindle 551, a front clamping member 552, a rear clamping member 554 and a biasing member 556. The spindle 551 has one end fixed to the crossbar 534 and the other end pivotally supporting the base member 550, similar to a conventional bicycle pedal. Accordingly, the clamping members 552 and 554 constitute fixing portions of the shoe attachment member 526 with the front clamping member 552 being a non-movable fixing portion and the rear clamping member 554 being a movable fixing portion in this embodiment. The clamping member 554 is pivotally attached to the base member 550. The biasing member 556 preferably includes one or more torsion springs that are disposed on a pivot axle that pivotally mounts the clamping member 554 to the base member 550. The biasing member 556 has one end operatively engaged with the base member 550 and the other end operatively engaged with the rear clamping member 554 to urge the rear clamping member 554 from the shoe releasing position to the shoe retaining position. The rear clamping member 554 is disposed rearward of the front clamping member 552 to define a shoe (cleat) receiving area therebetween. The rear clamping member 554 has a projection 554a, respectively, for contacting the stopper 570, when the rower pivots the shoe attachment members 526 about the axis C. Thus, pivoting the shoe attachment members 526 about the axis C causes one of the projections 554a of each of the shoe attachment members 526 to contact the stopper 570 to perform a shoe releasing operation. Preferably, the tether 74 of the float 72 is coupled to one of the projection 554a of each of the shoe attachment members 526.
Referring now to
In this embodiment, the single inclined bar 632 (e.g., a stationary part), the crossbar 634 (e.g., a connecting part) and the stoppers 670 form part of a support member that is adjustably fixed to the row boat 10. Basically, the crossbar 634 has a first end rigidly coupled to the single inclined bar 632, and a second end pivotally coupled to the shoe attachment member 626 to support the shoe attachment member 626 for pivotal movement with respect to the crossbar 634 about the pivot axis C.
Each of the shoe attachment members 626 of this illustrated embodiment includes a base member or portion 650 with a spindle 651, a front clamping member 652, a rear clamping member 654 and a pair of biasing member 656. The spindle 651 has one end fixed to the crossbar 634 and the other end pivotally supporting the base member 650, similar to a conventional bicycle pedal. Accordingly, the clamping members 652 and 654 constitute movable fixing portions of the shoe attachment member 626 with in this embodiment. The clamping members 652 and 654 are pivotally attached to the base member 650. The biasing members 656 preferably include one or more torsion springs that are disposed on pivot axles that pivotally mount the clamping members 652 and 654 to the base member 650. The biasing members 656 have one end operatively engaged with the base member 650 and the other end operatively engaged with one of the clamping members 652 and 654 to urge the clamping members 652 and 654 from the shoe releasing position to the shoe retaining position. The rear clamping member 654 is disposed rearward of the front clamping member 652 to define a shoe (cleat) receiving area therebetween. The clamping members 652 and 654 have projections 652a and 654a, respectively, for contacting the stoppers 670, when the rower pivots the shoe attachment members 626 about the axis C. Thus, pivoting the shoe attachment members 626 about the axis C causes one of the projections 652a and 654a of each of the shoe attachment members 626 to contact the stoppers 670 to perform a shoe releasing operation. Preferably, the tether 74 of the float 72 is coupled to one of the projections 652a and 654a of each of the shoe attachment members 626.
In understanding the scope of the present invention, the term “comprising” and its derivatives, as used herein, are intended to be open ended terms that specify the presence of the stated features, elements, components, groups, integers, and/or steps, but do not exclude the presence of other unstated features, elements, components, groups, integers and/or steps. The foregoing also applies to words having similar meanings such as the terms, “including”, “having” and their derivatives. Also, the terms “part,” “section,” “portion,” “member” or “element” when used in the singular can have the dual meaning of a single part or a plurality of parts. As used herein to describe the present invention, the following directional terms “above, downward, vertical, horizontal, below and transverse” as well as any other similar directional terms refer to those directions of a rowing boat equipped with the present invention. Accordingly, these terms, as utilized to describe the present invention should be interpreted relative to a rowing boat equipped with the present invention as used in the normal rowing position. Finally, terms of degree such as “substantially”, “about” and “approximately” as used herein mean a reasonable amount of deviation of the modified term such that the end result is not significantly changed.
While only selected embodiments have been chosen to illustrate the present invention, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made herein without departing from the scope of the invention as defined in the appended claims. Furthermore, the foregoing descriptions of the embodiments according to the present invention are provided for illustration only, and not for the purpose of limiting the invention as defined by the appended claims and their equivalents.