초록 ▼

A device to actively enhance proprioception and core strength of its user consisting of a motion control system providing a tilt plate that is dampened with a suspension system to provide a system to deliver an exercise regimen that automatically detects and strengthens core muscles in an unobtrusiv

A device to actively enhance proprioception and core strength of its user consisting of a motion control system providing a tilt plate that is dampened with a suspension system to provide a system to deliver an exercise regimen that automatically detects and strengthens core muscles in an unobtrusive manner by allowing the individual to move freely while seated. The device can be configured into a chair, stool, wheelchair seat insert, vehicle or airplane seat or exercise device generically known as balance board. The device is intended to enhance the user's proprioception core strength, sense of balance, and overall physical well being.

대표청구항 ▼

I claim: 1. A seating assembly comprising: a base support attached to a lower supporting structure, a seating portion, a pivot bar having axially aligned and oppositely disposed first pivots attached to the base support to pivot such that the pivot bar pivots about a base pivot axis and axially ali

I claim: 1. A seating assembly comprising: a base support attached to a lower supporting structure, a seating portion, a pivot bar having axially aligned and oppositely disposed first pivots attached to the base support to pivot such that the pivot bar pivots about a base pivot axis and axially aligned and oppositely disposed second pivots oriented perpendicular to the first pivots and wherein the seating portion is pivotally attached to the second pivots such that the seating portion pivots about a seat pivot axis substantially orthogonal to the base pivot axis and wherein the base pivot axis and the seat pivot axis intersect, such that the seating portion is omnidirectionally tiltable out of a level plane, and wherein the pivot bar comprises a one piece construction; a dampening assembly disposed between the base support and the seating portion to provide resistance to pivoting about the base pivot axis and the seat pivot axis. 2. The seating assembly as recited in claim 1 where the dampening assembly comprises a tubular member positioned around the pivot bar. 3. The seating assembly as recited in claim 2 where the tubular member comprises an inflatable toroidal shaped member. 4. The seating assembly as recited in claim 3 where the seating assembly is one of the following categories: a chair, a stool, or a wheelchair seat insert. 5. The seating assembly as recited in claim 1 where the seating portion comprises a lower seat and a backrest that movably engages the lower seat. 6. The seating assembly as recited in claim 5 where the lower seat pivotably engages the pivot bar. 7. A seating assembly comprising: a base support attached to a lower support structure, a base pivot attachment assembly attached to the base support, a pivot bar having axially aligned and oppositely disposed first pivots attached to the base pivot attachment assembly such that the pivot bar is pivotable about a base pivot axis, and axially aligned and oppositely disposed second pivots oriented perpendicular to the first pivots, and wherein the pivot bar comprises a one piece construction, a seating portion, a seat pivot attachment assembly attached to the seating portion, the seat pivot attachment assembly being pivotally attached to the pivot bar second pivots such that the seating portion is pivotable about a seat pivot axis that is substantially orthogonal to the base pivot axis, and wherein the base pivot axis and the seat pivot axis intersect, such that the seat portion is omnidirectionally tiltable out of a level plane, a rotational dampening system operatively connected between the base support and the seating portion, wherein the dampening system provides rotational resistance during pivoting about the seat pivot axis and the base pivot axis. 8. The seating assembly as recited in claim 7 where the base pivot attachment assembly is comprised of first and second base pivot attachment members. 9. The seating assembly as recited in claim 8 where the seat pivot attachment assembly is comprised of first and second seat pivot attachment members. 10. The seating assembly as recited in claim 7 where the seat pivot attachment assembly is attached to a support base which is rigidly attached to the seating portion. 11. The seating assembly as recited in claim 10 where the distance between the intersect point and the lower surface of the support base is less than 2 inches. 12. The seating assembly as recited in claim 10 where the dampening system is comprised of a circular tube interposed between the base support and the seating portion. 13. The seating assembly as recited in claim 7 where the seating portion has a backrest attached thereto. 14. The seating assembly as recited in claim 13 where the dampening system is comprised of an inflatable toroidal member positioned circumferentially around the pivot bar, and an inflation tube that allows adjustment of the volume of air within the toroidal member. 15. The seating assembly as recited in claim 7 where the seat pivot attachment assembly is comprised of first and second seat pivot attachment members which are positioned at one portion of the pivot bar and the base pivot attachment assembly is comprised of first and second base pivot attachment members positioned at substantially orthogonal locations with respect to the location of the first and second seat pivot attachment members. 16. A method of treating scoliosis comprising: providing an individual suffering from scoliosis with a seating assembly comprising a seating portion, a base support and a pivot bar, wherein the pivot bar is pivotally attached to the seating portion with a seat pivot attachment assembly comprising oppositely disposed first pivots to pivot about a seat pivot axis, and is pivotally attached to the base support with a base pivot attachment assembly comprising oppositely disposed second pivots to pivot about a base pivot axis that is orthogonal to the seat pivot axis, the base support being attached to a support structure, and wherein the base pivot axis and the seat pivot axis intersect, such that the seat portion is omnidirectionally tiltable out of a level plane, wherein the pivot bar comprises a one-piece construction positioning the individual suffering from scoliosis on the seating assembly such that the individual's center of gravity is directly over an intersection of the base pivot axis and the seat pivot axis, wherein the seating assembly is adapted to produce a restoring force for rotation about the longitudinal axis and lateral axis to provide a sense of security for the individual. 17. The method of treating scoliosis of claim 16, wherein the restoring force for rotation about the axes is produced by a toroidal-shaped inflatable tube. 18. The method of treating scoliosis of claim 17, further comprising the step of selectively adjusting pressure in the inflatable tube thereby controlling the character of the restoring force. 19. The method of treating scoliosis of claim 16, wherein the restoring force increases nonlinearly with the magnitude of the rotation about the axes, thereby providing the sense of security for the individual. 20. A method for simulating therapeutic horseback riding in a seating assembly comprising: providing a patient to receive simulated therapeutic horseback riding with a seating assembly comprising a seating portion, a base support and a pivot bar, wherein the pivot bar is pivotally attached to the seating portion with a seat pivot attachment assembly comprising oppositely disposed first pivots to pivot about a seat pivot axis, and is pivotally attached to the base support with a base pivot attachment assembly comprising oppositely disposed second pivots to pivot about a base pivot axis that is orthogonal to the seat pivot axis, the base support being attached to a support structure, and wherein the base pivot axis and the seat pivot axis intersect, such that the seat portion is omnidirectionally tiltable out of a level plane; wherein the pivot bar comprises a one-piece construction providing a dampening system adapted to nonlinearly resist rotation of the seating portion about a longitudinal and lateral axis of the motion control assembly; wherein an individual receiving the simulated horseback riding therapy is positioned such that the individual's center of gravity is directly over an intersection of the base pivot axis and the seat pivot axis; and wherein the dampening system provides a nonlinear restoring force for rotation about the longitudinal axis and lateral axis to provide a sense of security for the individual. 21. The method for simulating therapeutic horseback riding of claim 20, wherein the dampening system is a pneumatic system. 22. The method for simulating therapeutic horseback riding of claim 20, wherein the method is applied to treating scoliosis. 23. A method of treating sensory motor processing disorders comprising: positioning an individual suffering from a sensory motor processing disorder on a seating assembly comprising a seating portion, a base support and a pivot bar, wherein the pivot bar is pivotally attached to the seating portion with a seat pivot attachment assembly comprising oppositely disposed first pivots to pivot about a seat pivot axis, and is pivotally attached to the base support with a base pivot attachment assembly comprising oppositely disposed second pivots to pivot about a base pivot axis that is orthogonal to the seat pivot axis, the base support being attached to a support structure, and wherein the base pivot axis and the seat pivot axis intersect, such that the seat portion is omnidirectionally tiltable out of a level plane, wherein the pivot bar comprises a one-piece construction providing a rotational dampening system to resist rotation about a longitudinal and lateral axis of the motion control assembly, positioning the individual toward a position wherein the individual's center of gravity is directly over an intersection of the base pivot axis and the seat pivot axis, wherein the rotational dampening system produces a restoring force for rotation about the longitudinal axis and lateral axis. 24. The method of treating sensory motor processing disorders of claim 23, wherein the step of providing a restoring force for rotation about the axes comprises a toroidal-shaped inflatable tube. 25. The method of treating sensory motor processing disorders of claim 24, further comprising the step of selectively adjusting pressure in the inflatable tube thereby controlling the character of the restoring force. 26. The method of treating sensory motor processing disorders of claim 23, wherein the restoring force increases nonlinearly with the magnitude of the rotation about the axes, thereby providing the sense of security for the individual.