Pivot-flex foot

We claim: 1. A prosthetic device, comprising: an ankle component; a foot component coupled to the ankle component, wherein the foot component has a longitudinal length configured to extend at least partially along a sagittal plane of a user when the prosthetic device is in use, wherein the foot component has a thickness configured to extend at least partially along a transverse plane of the user when the prosthetic device is in use, and wherein the foot component comprises a lower cantilever leaf spring; and a coupling mechanism positioned between the foot component and the ankle component, wherein the coupling mechanism couples a rotation of the foot component with respect to the sagittal plane to a rotation of the foot component with respect to the transverse plane, wherein the coupling mechanism comprises one or more upper cantilever leaf springs each having a transverse cross-section defined by a width configured to extend at least partially along a coronal plane of the user when the prosthetic device is in use and a thickness configured to extend at least partially along the transverse plane of the user when the prosthetic device is in use, and wherein the transverse cross-section of the one or more upper cantilever leaf springs are each configured to be misaligned with the sagittal plane by a rotation angle when the prosthetic device is in use such that if the foot component is subjected to a bending moment along the sagittal plane, the sagittal plane bending moment will simultaneously deflect the foot component along both the sagittal plane and the transverse plane. 2. The prosthetic device of claim 1 , wherein the prosthetic device further comprises a pyramid adapter coupled to the ankle component, wherein the pyramid adapter is configured to be coupled to a prosthetic limb. 3. The prosthetic device of claim 1 , wherein a coupling ratio of the rotation of the foot component with respect to the sagittal plane to the rotation of the foot component with respect to the transverse plane ranges from 2:1 to 6:1. 4. The prosthetic device of claim 1 , wherein the transverse cross-section is L-shaped, triangular-shaped or rectangular-shaped. 5. The prosthetic device of claim 1 , wherein a ratio of the width to the thickness of the one or more upper cantilever leaf springs ranges from 2:1 to 20:1. 6. The prosthetic device of claim 1 , wherein the rotation angle is constant along the longitudinal length of the foot component, varies along the longitudinal length of the foot component or the rotation angle ranges from 0 degrees to 30 degrees. 7. The prosthetic device of claim 1 , wherein the lower cantilever leaf spring is coupled to a first end of the one or more upper cantilever leaf springs, and wherein the ankle component is coupled to a second end of the one or more upper cantilever leaf springs. 8. The prosthetic device of claim 7 , wherein the first end of the one or more upper cantilever leaf springs are coupled to the lower cantilever leaf spring via a mechanical fastener. 9. The prosthetic device of claim 7 , wherein the ankle component is coupled to the second end of the one or more upper cantilever leaf springs via a bracket. 10. The prosthetic device of claim 9 , wherein the bracket includes an upper portion removably coupled to a lower portion, and wherein the upper portion and the lower portion each include one or more angled cutouts configured to receive the one or more upper cantilever leaf springs at the rotation angle. 11. The prosthetic device of claim 1 , wherein the one or more upper cantilever leaf springs comprises two leaf springs, wherein each of the two leaf springs are configured to be misaligned with the sagittal plane by the rotation angle when the prosthetic device is in use. 12. The prosthetic device of claim 1 , wherein the prosthetic device further comprises an elastomer material positioned between the lower cantilever leaf spring and the one or more upper cantilever leaf springs. 13. The prosthetic device of claim 1 , wherein the prosthetic device further comprises one or more wedges coupled to a bottom surface of the lower cantilever leaf spring. 14. The prosthetic device of claim 13 , wherein the one or more wedges comprise a toe wedge positioned under a front portion of the lower cantilever leaf spring and a heel wedge positioned under a rear portion of the lower cantilever leaf spring. 15. The prosthetic device of claim 13 , wherein the one or more wedges are shaped such that a bottom surface of the one or more wedges is parallel to a ground surface when in use. 16. The prosthetic device of claim 13 , wherein the lower cantilever leaf spring comprises a first material, the one or more upper cantilever leaf springs comprise a second material, and wherein the one or more wedges comprise a third material that is different than the first material and the second material. 17. A prosthetic device, comprising: an ankle component; a foot component coupled to the ankle component, wherein the foot component has a longitudinal length configured to extend at least partially along a sagittal plane of a user when the prosthetic device is in use, wherein the foot component has a thickness configured to extend at least partially along a transverse plane of the user when the prosthetic device is in use, and wherein the foot component comprises a lower cantilever leaf spring; and a coupling mechanism positioned between the foot component and the ankle component, wherein the coupling mechanism couples a rotation of the foot component with respect to the sagittal plane to a rotation of the foot component with respect to the transverse plane, wherein the coupling mechanism comprises a first upper cantilever leaf spring and a second upper cantilever leaf spring each having a transverse cross-section defined by a width configured to extend at least partially along a coronal plane of the user when the prosthetic device is in use and a thickness configured to extend at least partially along the transverse plane of the user when the prosthetic device is in use, and wherein each of the first upper cantilever leaf spring and the second upper cantilever leaf spring are configured to be misaligned with the sagittal plane by a rotation angle when the prosthetic device is in use. 18. The prosthetic device of claim 17 , wherein the rotation angle is constant along the longitudinal length of the foot component. 19. The prosthetic device of claim 17 , wherein the rotation angle varies along the longitudinal length of the foot component. 20. The prosthetic device of claim 17 , wherein the prosthetic device further comprises an elastomer material positioned between the lower cantilever leaf spring and the first upper cantilever leaf spring and the second upper cantilever leaf spring.