Adjustable proprioceptive neuromuscular trainer

Abstract

A balance board may include an upper plate having a top surface; a base configured to contact the ground; and a center assembly pivotally connecting the upper plate with the base, the center assembly including a top pivot including a first multi-axial joint set at least partially within the upper plate and a lower pivot including a second multi-axial joint disposed proximate the upper plate. The first multi-axial joint may be a first ball and socket joint; the second multi-axial joint may be a second ball and socket joint; and the first ball and socket joint may be disposed at least partially within the second ball and socket joint. In addition, the balance board may further include an adjustable angle stop system comprising at least one adjustable angle stop movable at adjustable intervals to change a maximum angle by which the upper plate may be pivoted.

Claims

1. A balance board, comprising: an upper plate having a top surface configured for a user to stand on; a base configured to contact the ground; and a center assembly pivotally connecting the upper plate with the base, the center assembly including a top pivot including a first multi-axial joint set at least partially within the upper plate and a lower pivot including a second multi-axial joint disposed proximate the upper plate; wherein the first multi-axial joint is a first ball and socket joint; wherein the second multi-axial joint is a second ball and socket joint; and wherein the first ball and socket joint is disposed at least partially within the second ball and socket joint; the balance board further including an adjustable angle stop system comprising at least one adjustable angle stop configured to move at adjustable increments to change a maximum angle by which the upper plate may be pivoted relative to the base.

2. The balance board of claim 1, further including an inflatable annular air bladder extending around the center assembly and between the upper plate and the base.

3. The balance board of claim 2, further including an inflation valve configured to permit adjustment of air pressure within the annular air bladder, wherein air pressure within the annular air bladder affects resistance to pivotal movement between the upper plate and the base.

4. The balance board of claim 1, further including a data tracking device configured to detect and transmit information regarding movement of the upper plate.

5. The balance board of claim 4, wherein the information regarding movement of the upper plate includes data regarding at least one of the location, acceleration, and travel of the upper plate.

6. The balance board of claim 1, wherein the at least one adjustable angle stop is configured to slide at adjustable increments to change the maximum angle by which the upper plate may be pivoted relative to the base.

7. A balance board, comprising: an upper plate having a top surface configured for a user to stand on; a base configured to contact the ground; a center assembly pivotally connecting the upper plate with the base; and an adjustable angle stop system comprising at least one adjustable angle stop associated with the base and configured to be moved at adjustable increments with respect to the base, thus changing a maximum angle by which the upper plate may be pivoted relative to the base; wherein the center assembly includes at least a first ball and socket joint; wherein the center assembly includes a second ball and socket joint disposed at least partially within the first ball and socket joint; and wherein the first ball and socket joint is disposed at least partially within the upper plate.

8. The balance board of claim 7, wherein the adjustable angle stop is configured to be slidably moved in a substantially radial direction relative to a vertical axis at an approximate center of the balance board.

9. The balance board of claim 7, wherein the balance board includes a plurality of adjustable angle stops disposed around a periphery of the base.

10. The balance board of claim 9, wherein the plurality of adjustable angle stops includes four adjustable angle stops evenly spaced at 90 degree increments around the periphery of the base; and wherein the balance board is configured to be converted from a multi-axis wobble board to a single-axis rocker board by adjusting opposing adjustable angle stops to prevent pivotal movement about all but one horizontal axis.

11. The balance board of claim 7, further including an inflatable annular air bladder extending around the center assembly and between the upper plate and the base.

12. The balance board of claim 11, further including an inflation valve configured to permit adjustment of air pressure within the annular air bladder, wherein air pressure within the annular air bladder affects resistance to pivotal movement between the upper plate and the base.

13. The balance board of claim 7, further including a data tracking device configured to detect and transmit information regarding movement of the upper plate.

14. The balance board of claim 13, wherein the information regarding movement of the upper plate includes data regarding at least one of the location, acceleration, and travel of the upper plate.

15. A balance board, comprising: an upper plate having a top surface configured for a user to stand on; a base configured to contact the ground; a center assembly pivotally connecting the upper plate with the base; and an adjustable angle stop system comprising two or more adjustable angle stops associated with the base and configured to be moved independently at adjustable increments with respect to the base, thus changing a maximum angle by which the upper plate may be pivoted relative to the base; each angle stop comprising: a first member mounted to the base; and a second member movably mounted on the first member, wherein the second member is positively mounted to the first member such that the second member is in continuous engagement with the first member.

16. The balance board of claim 15, wherein each adjustable angle stop is configured to be slidably moved in a substantially radial direction relative to a vertical axis at an approximate center of the balance board.

17. The balance board of claim 15, wherein the two or more adjustable angle stops include a plurality of adjustable angle stops disposed around a periphery of the base.

18. The balance board of claim 17, wherein the plurality of adjustable angle stops includes four adjustable angle stops evenly spaced at 90 degree increments around the periphery of the base; and wherein the balance board is configured to be converted from a multi-axis wobble board to a single-axis rocker board by adjusting opposing adjustable angle stops to prevent pivotal movement about all but one horizontal axis.

19. The balance board of claim 15, further including an inflatable annular air bladder extending around the center assembly and between the upper plate and the base.

20. The balance board of claim 19, further including an inflation valve configured to permit adjustment of air pressure within the annular air bladder, wherein air pressure within the annular air bladder affects resistance to pivotal movement between the upper plate and the base.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1. is a side view of the entire APNT according to the present invention.

(2) FIG. 2. is a top view of the top surface accessory mounting slots and the top center alignment hole according to the present invention.

(3) FIG. 3A. is a exploded view of the center assembly according to the present invention.

(4) FIG. 3B. is an assembled cross-sectional view of the center assembly shown in FIG. 3A.

(5) FIG. 4. is a view of the air bladder system according to the present invention.

(6) FIG. 5A. is a top view of the sliding and lock adjustable angle stop system according to the present invention.

(7) FIG. 5B. is a perspective cutaway cross-sectional view of the adjustable angle stop system of FIG. 5A shown in a locked condition.

(8) FIG. 5C. is a perspective cutaway cross-sectional view of the adjustable angle stop system of FIG. 5A shown in an unlocked condition.

(9) FIG. 6. is an exploded view of the rocker board conversion assembly according to the present invention.

(10) FIG. 7. is a top view of the bottom surface including the slide and lock mounting holes, accessory mounting holes and the center alignment holes according to the present invention.

DETAILED DESCRIPTION

(11) The Adjustable Proprioceptive Neuromuscular Training (APNT) device (FIG. 1) is a progressively challenging proprioceptive training device that is adjusted, progressed or regressed using an adjustable resistance air bladder 14 adjustable angle travel stops 13 or the rocker board conversion assembly (FIG. 6).

(12) A user is in contact with the top surface 21. The top surface 21 comprising accessory mounting slots 21 and a top center alignment 26. The top center alignment 26 allows a center assembly (FIGS. 3A and 3B) to enter the top surface 21 creating a top pivot 2 at the top surface 21 which makes the top surface 21 wobble or rock multiaxially or bi-laterally at various angles. A center assembly (FIGS. 3A and 3B) allows the top surface 21 to move up and down multiaxially using the top pivot 2 and lower pivot 3.

(13) Enclosed in an upper hollow cavity 4 is a computer sensor 6. The computer sensor 6 is above the pivot ball 2 which is enclosed in a lower cavity 3 and upper hollow cavity 4 held together with a mounting screw 8 through the lower cavity 3 and upper cavity 4 entering top surface 21 enclosing the top pivot 2. A lower pivot 3 rests on lower pivot base 1 connected to a bottom surface 20 using a center bolt 10 and a washer 9 passing through the bottom surface 20, lower pivot base 1, lower pivot 3 and threaded into top pivot 2 connecting top surface 21 and bottom surface 20.

(14) As shown in FIG. 4 the air bladder system goes around center assembly (FIGS. 3A and 3B) and is between the top surface 21 and bottom surface 20 and includes an air inlet 16 which is attached to an air release valve 15 that enters the air bladder 14 on the side. The air inlet 16 allows the user to add air to the air bladder 14 which places resistance on the top surface 21 and forces the top surface 21 to move in a more controlled motion. The air release valve 15 allows the user to release air from the air bladder 14 removing resistance from the motion of the top surface 21 and allowing the top surface 21 to move with less control for more advanced users.

(15) A slide and lock adjustable angle stop system is mounted to the bottom surface 20 outside of an air bladder system (FIG. 4). The slide and lock adjustable angle stop system (FIGS. 5A, 5B, and 5C) allows the user to adjust the angular motion of the top surface 21 using an adjustable angle stop 13 which slides and locks on a slide and lock mechanism 12. The adjustable angle stop 13 can be set and locked closer to the center assembly (FIGS. 3A and 3B) to increase the travel of the top surface 21 or set and locked further away from the center assembly (FIGS. 3A and 3B) to reduce the angular travel of the top surface 21 allowing for multiple angular motions of the top surface 21.

(16) As shown in FIG. 6 the rocker board conversion assembly contains a rocker board conversion top cavity 19, cavity closing screws 11, rocker board conversion pivot 17, and a rocker board conversion bottom cavity 18. The rocker board conversion assemblies (FIG. 6) attach to two linear slide and lock mechanisms 12 to convert the adjustable wobble proprioceptive training device into an adjustable rocker proprioceptive training device.

(17) As shown in FIG. 7 the bottom surface 20 contains accessory mounting holes 23 slide and lock mounting holes 22 and center assembly alignment holes 24. The bottom surface 20 provides a base of support for the APNT (FIG. 1) and connects with the top surface 21 through the center assembly (FIGS. 3A and 3B) allowing the top surface 21 to wobble or rock with minimal multiaxial deviation from the vertical midpoint.

(18) While different embodiments of the invention have been described in detail herein, it will be appreciated by those skilled in the art of various modifications and alternatives to the embodiments could be developed in light of the overall teachings of the disclosure. Accordingly, the particular arrangements are illustrative only and are not limiting as to the scope of the invention that is to be given the full breadth of any and all equivalents thereof.