Kinetic infinity mount system

Abstract

A Kinetic Infinity Mount System (KIMS) comprises an outer housing, first and second outer gears, first and second inner gears, two pins, two screws, two mechanical collars, and a fin box. The KIMS allows different reusable and removable fins to be mounted onto a surfboard or other waterborne vessels. The KIMS provides dynamic, simultaneous adjustment and setting of a toe angle and a camber angle of the fin. The fin box includes two screw holes at each end and four screw holes along the side. Users choose from multiple settings of positive or negative toe angle or camber angle for each fin mounted into the surfboard. Camber and toe angles, in both positive or negative directions, can be adjusted simultaneously or separately to the user's preference. The KIMS allows different types of fins by FCS®, Futures® or similar, rectangular based fins to be mounted into the fin box and adjusted to desired configuration.

Claims

1. A fin mount system for a surfboard comprising: an outer housing having an inside and an outside; a fin box, wherein the fin box is disposed within the inside of the outer housing; a first outer gear; a second outer gear, wherein the first outer gear and the second outer gear control a toe angle of the fin box; a first inner gear; a second inner gear, wherein the first inner gear and the second inner gear control a camber angle of the fin box; a first collar, wherein the first collar is disposed between the first inner gear and a first end of the fin box; and a second collar, wherein the second collar is disposed between the second inner gear and a second end of the fin box, and wherein the first end of the fin box is opposite the second end of the fin box.

2. A fin mount system for a surfboard comprising: an outer housing having an inside and an outside; a fin box, wherein the fin box is disposed within the inside of the outer housing; a first outer gear; a second outer gear, wherein the first outer gear and the second outer gear control a toe angle of the fin box; a first inner gear; a second inner gear, wherein the first inner gear and the second inner gear control a camber angle of the fin box; a first collar, wherein the first collar is disposed between the first inner gear and a first end of the fin box; and a second collar, wherein the second collar is disposed between the second inner gear and a second end of the fin box, wherein the first end of the fin box is opposite the second end of the fin box, wherein the first collar and the second collar lock the camber angle set by the first inner gear and the second inner gear, and wherein the first collar and second collar lock the toe angle set by the first outer gear and the second outer gear.

3. The fin mount system of claim 1, wherein the first collar and the second collar are removable thereby allowing the camber angle to be adjusted via the first inner gear and the second inner gear, and wherein the first collar and the second collar are removable thereby allowing the toe angle to be adjusted via the first outer gear and the second outer gear.

4. A fin mount system for a surfboard, comprising: a Kinetic Infinity Mount System (KIMS), wherein the fin mount system comprises: an outer housing having an inside and an outside; a fin box, wherein the fin box is disposed within the inside of the outer housing; a first outer gear; a second outer gear, wherein the first outer gear and the second outer gear control a toe angle of the fin box; a first inner gear; and a second inner gear, wherein the first inner gear and the second inner gear control a camber angle of the fin box.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The accompanying drawings, where like numerals indicate like components, illustrate embodiments of the invention.

(2) FIG. 1A is a diagram showing the components of the Kinetic Infinity Mount System (KIMS) including an outer housing and a fin.

(3) FIG. 1B is a diagram showing another embodiment of the KIMS.

(4) FIG. 1C shows an isometric view of the KIMS embodiment shown in FIG. 1B.

(5) FIG. 2A is a plan view illustration of the outer housing of the KIMS.

(6) FIG. 2B is a cross-sectional view of the outer housing of the KIMS that shows teeth.

(7) FIG. 3 is an illustration of a fin or surfboard skeg or fin.

(8) FIG. 4A is a plan view illustration of the KIMS fin box depicting both camber and toe set in the neutral direction.

(9) FIG. 4B is a transverse view illustration of the KIMS fin box depicting both camber and toe set in the neutral direction.

(10) FIG. 5A is a plan view illustration of the KIMS fin box depicting both camber and toe set in a positive direction.

(11) FIG. 5B is a transverse view illustration of the KIMS fin box depicting both camber and toe set in a positive direction.

(12) FIG. 6A is a plan view illustration of the KIMS fin box depicting camber set in a positive direction and toe set in a neutral direction.

(13) FIG. 6B is a transverse view illustration of the KIMS fin box depicting camber set in a positive direction and toe set in a neutral direction.

(14) FIG. 7A is a plan view illustration of the KIMS fin box depicting camber set in a negative direction and toe set in a neutral direction.

(15) FIG. 7B is a transverse view illustration of the KIMS fin box depicting camber set in a negative direction and toe set in a neutral direction.

(16) FIG. 8A is a plan view illustration of the KIMS fin box depicting both camber and toe set in a negative direction.

(17) FIG. 8B is a transverse view illustration of the KIMS fin box depicting both camber and toe set in a negative direction.

(18) FIG. 9A is a plan view illustration of the KIMS fin box depicting both camber and toe set in a positive direction.

(19) FIG. 9B is a transverse view illustration of the KIMS fin box depicting both camber and toe set in a positive direction.

(20) FIG. 10A is a plan view illustration of the KIMS fin box depicting camber set in a negative direction and toe set in a positive direction.

(21) FIG. 10B is a transverse view illustration of the KIMS fin box depicting camber set in a negative direction and toe set in a positive direction.

(22) FIG. 11A is a plan view illustration of the KIMS fin box depicting camber set in a neutral direction and toe set in a negative direction.

(23) FIG. 11B is a transverse view illustration of the KIMS fin box depicting camber set in a neutral direction and toe set in a negative direction.

(24) FIG. 12A is a plan view illustration of the KIMS fin box depicting camber set in a neutral direction and toe set in a positive direction.

(25) FIG. 12B is a transverse view illustration of the KIMS fin box depicting camber set in a neutral direction and toe set in a positive direction.

DETAILED DESCRIPTION

(26) Reference will now be made in detail to some embodiments of the invention, examples of which are illustrated in the accompanying drawings.

(27) FIG. 1 is a diagram showing the Kinetic Infinity Mount System (KIMS) having an outer housing 190. The outer housing has an hourglass shape. The outer housing 190 has two triangular pieces cut out on the sides and teeth along the top and bottom of the outer edge on the inside of the outer housing. The outer housing 190 holds a first outer gear 10 and a second outer gear 180. Each of the first outer gear 10 and the second outer gear 180 has two sides, a male side and a female side.

(28) The male sides of the first outer gear 10 and the second outer gear 180 are shaped like a square with teeth along the top and bottom which fit into the outer housing 190 to control the toe angle (e.g. toe in/toe out). The outer housing 190 has an hourglass shape. The female sides of the first outer gear 10 and the second outer gear 180 have circular shapes and mate with the first inner gear 20 and the second inner gear 170, respectively, in a circular pattern fashion. The female side of the first outer gear 10 accepts the male side of the first inner gear 20 and the female side of the second outer gear 180 accepts the second inner gear 170 as shown in the exploded views of FIGS. 1A and 1C.

(29) The first inner gear 20 and the second inner gear 170 control the camber angle (e.g. camber in/camber out). The first outer gear 10 and the first inner gear 20 attach to a first pin 40. The second outer gear 180 and the second inner gear 170 attach to a second pin 150. The first and second pins 40 and 150 attached to the fin box 90. A fin 100, which may be any type of fin including fins from FCS® (FCS® and FCS II®) and Futures® or similar, is fastened to the fin box 90. Various types of fins 100 can be attached via screws to the fin box 90 via the holes provided on the side of the fin box 90, including holes 70, 80, 110 and 120.

(30) The first pin 40 and the second pin 150 pin are cylindrically shaped on one end while the other end is shaped like a star as shown in FIGS. 1A-1C. The star-shaped sides of the first pin 40 and the second pin 150 are attached to the fin box 90 via screws 50 and 140, respectively. The screws 50 and 140 are threaded into the fin box 90 via holes 60 and 130 into the first pin 40 and the second pin 150. The star portion of the first and second pins 40 and 150 allow the first and second inner gears 20 and 170 to move back and forth, but prevent the first and second inner gears 20 and 170 from sliding off the pins. The cylindrical side of the first and second pins 40 and 150 allow the first and second outer gears 10 and 180 to slide completely along the entire length of the pins 40 and 150 including the star-shaped side. The novel design of the fin mount system allows movement of the first and second outer gears 10 and 180 and allows movement of the first and second inner gears 20 and 170 simultaneously during toe angle adjustment (e.g. adjusting angle of toe in/toe out). This allows the fin box 90 to be moved and locked in place along a longitudinal axis in a negative direction also known as negative camber where the fin 100 can point towards the nose of the surfboard or in a positive direction also known as positive camber where the fin can point away from the nose of the surfboard as in FIGS. 5A through 12B.

(31) The first and second inner gears 20 and 170 slide along the first and second pins 40 and 150 to change the toe angle of the fin by removing first and second collars 30 and 160. The camber angle of the fin 100 is set by the first and second inner gears 20 and 170 rotating along the first and second pins 40 and 150, respectively, about a horizontal axis of the fin box 90. The camber is adjusted by sliding only the first and second inner gears 20 and 170 along the first and second pins 40 and 150, respectively. The novel design of the fin mount system allows teeth movement of the first and second inner gears 20 and 170 during camber angle adjustment (e.g. adjusting angle of camber in/camber out). This allows the fin box 90 to be moved and locked in place along a horizontal axis in a negative direction where the fin 100 can point towards the nose of the surfboard or a positive direction where the fin can point away from the nose of the surfboard as shown in FIGS. 5A through 12B. Both the toe and camber can be adjusted simultaneously or separately for desired fin movement and configuration.

(32) The first and second collars 30 and 160 are disposed in between a respective one of the first and second inner gears 20 and 170 and the fin box 90. The first and second collars 30 and 160 clasp around the respective first and second pins 40 and 150 in a manner that prevents longitudinal or front to back movement of the first or second outer gears 10 and 180 or movement of the first or second inner gears 20 and 170. The first and second collars 30 and 160 lock the fin box 90 into place once the desired camber angle and/or toe angle have been selected and adjusted.