| CPC A61H 15/0085 (2013.01) [A61H 2201/0153 (2013.01); A61H 2201/1207 (2013.01); A61H 2201/14 (2013.01); A61H 2201/1661 (2013.01); A61H 2201/1669 (2013.01); A61H 2201/1673 (2013.01); A61H 2201/1695 (2013.01); A61H 2201/5035 (2013.01)] | 12 Claims |
|
1. A handheld, self-powered freely traversable massage device having a first non-traversing mode and a second traversing mode, the device comprising:
a casing including a handle portion;
a rechargeable battery pack;
one motor located within the casing;
an operator-adjustable motor speed control mechanism;
an operator controlled activation switch;
four rollers, each roller comprising an axle and each roller configured to rotate freely upon its own axle, the four rollers defining a front roller pair and a rear roller pair;
the front roller pair is comprised of a first roller and a second roller, the rear roller pair is comprised of a third roller and a fourth roller;
the first roller and the third roller are oriented external to the casing on a right peripheral side of the casing, the first and third rollers defining a right roller pair;
the second roller and the fourth roller are oriented external to the casing on a left peripheral side of the casing, the second and fourth rollers defining a left roller pair;
the axle of the first roller and the axle of the second roller rigidly adjoined at opposing ends of a first motor-driven axle and extending angularly therefrom, causing the axles of the first and second rollers to be configured to orbit conically about the first motor-driven axle;
the axle of the third roller and the axle of the fourth roller rigidly adjoined at the opposing ends of a second motor-driven axle and extending angularly therefrom, causing the axles of the third and fourth rollers to be configured to orbit conically about the second motor-driven axle;
the conical orbits of the front roller axles and the conical orbits of the rear roller axles configured to cause the front roller pair and the rear roller pair each to synchronously nutate about their respective motor-driven axle as the motor continuously rotates;
each roller axle orbit comprising a 360 degree excursion along a nutation circle formed by loci of a distal end of each roller axle, an axis of each nutation circle being coincident with a rotation axis of its corresponding motor-driven axle;
each roller having an outer surface configured to be in continuous rolling contact with an independent area of the fascia during each roller axle orbit while the device is positioned stationary in the first non-traversing mode;
the right roller pair configured to bear upon a first fascia region comprising a region of the fascia between the right roller pair;
the left roller pair configured to bear upon a second fascia region comprising a region of the fascia between the left roller pair;
the motor-driven axles being angularly phased such that a center distance between the right roller pair and a center distance between the left roller pair each expand and contract cyclically as the motor continuously rotates;
the expanding and contracting center distance between each roller pair producing continuously reciprocating roller oscillation configured to bear upon the first and the second fascia regions;
each roller producing one reciprocation cycle in each of three directions axes during each nutation orbit, including:
1) a first reciprocation axis upon a first plane being parallel to a fascia surface and directed along the first plane perpendicular to its motor-driven axle axis, and
2) a second reciprocation axis upon a second plane being parallel to a fascia surface and directed along the second plane parallel to its motor-driven axle axis;
3) a third reciprocating axis upon a third plane being perpendicular to a fascia surface and directed along the third plane perpendicular to the fascia surface, and
the motor configured to continuously produce reciprocating contact upon each of the first fascia region and the second fascia region including percussive forces along the third axis and stretching forces along the first and second axes simultaneously while the device is positioned stationary in the first non-traversing mode;
wherein the continuously reciprocating roller motion upon the first fascia region is synchronized with the oppositely directed reciprocating roller motion upon the second fascia region while the device is positioned stationary in the first non-traversing mode, and at a rate proportional to an operator-controlled motor speed.
|