An apparatus which damps oscillation in a ski, the apparatus comprising an enclosure, a cavity encompassed by the enclosure, and an aggregate located in the cavity. The cavity has a dimension in a direction perpendicular to a gliding surface of the ski which is larger than a thickness of the ski in
An apparatus which damps oscillation in a ski, the apparatus comprising an enclosure, a cavity encompassed by the enclosure, and an aggregate located in the cavity. The cavity has a dimension in a direction perpendicular to a gliding surface of the ski which is larger than a thickness of the ski in a location adjacent to the enclosure. The aggregate, in its tapped density, occupies substantially less volume than a volume of the cavity, thereby allowing significant travel of the aggregate in the cavity. Oscillation accelerates and decelerates the enclosure, resulting in accelerations and decelerations of the aggregate which cause it to acquire and lose kinetic energy. The aggregate's acquisition and loss of kinetic energy attenuates the oscillation.
대표청구항▼
1. An apparatus which attenuates oscillation in a ski, the apparatus comprising: an enclosure,a cavity encompassed by the enclosure,and an aggregate located in the cavity,wherein the ski has a gliding surface on its lower side and a top surface on its upper side,wherein the cavity has a dimension, m
1. An apparatus which attenuates oscillation in a ski, the apparatus comprising: an enclosure,a cavity encompassed by the enclosure,and an aggregate located in the cavity,wherein the ski has a gliding surface on its lower side and a top surface on its upper side,wherein the cavity has a dimension, measured along a line which passes through the cavity and which is substantially perpendicular to the gliding surface, which is greater than a thickness of the ski between its gliding surface and its top surface measured substantially perpendicularly to its gliding surface at a location adjacent to the enclosure,wherein the cavity has a volume, the aggregate has a mass and a tapped density which establishes a tapped volume of the aggregate, and the cavity's volume is larger than the aggregate's tapped volume,and wherein an oscillation in the ski causes a first acceleration of the enclosure, causing the aggregate, in total, to be located in a space adjacent to a first surface of the cavity and then to accelerate and acquire kinetic energy, and then the oscillation causes a second acceleration of the enclosure, causing a portion of the aggregate to leave the space adjacent to the first surface of the cavity and travel substantially unrestrained in the cavity, after which a second surface of the cavity causes it to inelastically decelerate and, in total, lose kinetic energy,whereby the aggregate's acquisition and subsequent loss of kinetic energy attenuates the oscillation. 2. The apparatus of claim 1 wherein the aggregate is a mixture of, relatively speaking, a coarse aggregate and a fine aggregate. 3. The apparatus of claim 2 wherein the coarse aggregate has a mesh size less than 30 and the fine aggregate has a mesh size greater than 30. 4. The apparatus of claim 2 wherein the coarse aggregate comprises lead pellets and the fine aggregate comprises a tungsten powder. 5. The apparatus of claim 2 wherein the aggregate has a tapped density which is greater than a tapped density of the coarse aggregate. 6. The apparatus of claim 2 wherein the aggregate has a tapped density greater than 10 grams per cubic centimeter. 7. The apparatus of claim 1 wherein the apparatus is located near a tip of the ski. 8. The apparatus of claim 1 wherein the apparatus is located near a tail of the ski. 9. The apparatus of claim 1 wherein the enclosure is secured to the top surface of the ski. 10. The apparatus of claim 1 wherein a distance, measured along the line, between the gliding surface and the enclosure is less than the thickness of the ski at the location adjacent to the enclosure. 11. The apparatus of claim 1 wherein the enclosure's first and second accelerations have vectors which are substantially opposed, whereby the oscillation is substantially planar. 12. An apparatus which attenuates oscillation in a ski, the apparatus comprising: an enclosure,a cavity encompassed by the enclosure,and an aggregate located in the cavity,wherein the ski has a gliding surface on its lower side and a top surface on its upper side,wherein the cavity has a dimension, measured along a line which passes through the cavity and which is substantially perpendicular to the gliding surface, which is greater than a thickness of the ski between its gliding surface and its top surface measured substantially perpendicularly to its gliding surface at a location adjacent to the enclosure,wherein, with the aggregate in its tapped aggregate space with the line positioned in a vertical orientation, the aggregate establishes a substantially planar surface which divides the cavity into a lower portion which contains the aggregate and an upper portion which is absent the aggregate,whereby a length of a segment of the line with endpoints at the line's intersections with the cavity's upper portion is a free travel distance of the aggregate. 13. The apparatus of claim 12 wherein the aggregate's free travel distance is longer than the ski's thickness at the location adjacent to the enclosure. 14. The apparatus of claim 12 wherein the apparatus, when in an idealized vertical planar operation, has an amplitude threshold which is substantially four times the free travel distance of the aggregate. 15. The apparatus of claim 12 wherein the cavity has an axis of symmetry and the line and the axis of symmetry are coaxial. 16. The apparatus of claim 12 wherein the free travel distance is longer than a segment of the line with endpoints at the line's intersections with the lower portion of the cavity. 17. A modified gliding device comprising: a gliding device having a gliding surface on its lower side and a top surface on its upper side,and an apparatus which attenuates oscillation in the modified gliding device, the apparatus comprising an enclosure, a cavity encompassed by the enclosure, and an aggregate located in the cavity,wherein the cavity has a dimension, measured along a line which passes through the cavity and which is substantially perpendicular to the gliding surface, which is greater than a thickness of the gliding device between its gliding surface and its top surface measured substantially perpendicularly to its gliding surface at a location adjacent to the enclosure,wherein the cavity has a volume, the aggregate has a mass and a tapped density which establishes a tapped volume of the aggregate, and the cavity's volume is larger than the aggregate's tapped volume,and wherein an oscillation in the gliding device causes a first acceleration of the enclosure, causing the aggregate, in total, to be located in a space adjacent to a first surface of the cavity and then to accelerate and acquire kinetic energy, and then the oscillation causes a second acceleration of the enclosure, causing a portion of the aggregate to leave the space adjacent to the first surface of the cavity and travel substantially unrestrained in the cavity, after which a second surface of the cavity causes it to inelastically decelerate and, in total, lose kinetic energy,whereby the aggregate's acquisition and subsequent loss of kinetic energy attenuates the oscillation. 18. The modified gliding device of claim 17 wherein the aggregate is inelastically decelerated at a point in the oscillation wherein the enclosure is momentarily substantially at rest and the oscillation has an amplitude, and wherein the amplitude is an amplitude threshold of the apparatus. 19. The modified gliding device of claim 17 wherein the aggregate, containing multiple particles, loses kinetic energy resulting from collisions of a portion of its particles with the second surface and from collisions between its particles. 20. The modified gliding device of claim 17 wherein the cavity has a dimension, measured in a direction perpendicular to the line, which is greater than the thickness of the gliding device at the location adjacent to the enclosure, whereby an oscillation which accelerates the enclosure in a direction perpendicular to the line will be attenuated.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Burkart Oskar (Forst ; Baden DT), Device for damping vibration of a ski.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.