Energy harvester apparatus having improved efficiency
First Claim
1. Apparatus comprising:
- (a) a housing;
(b) a first and at least a second mass element, each said element having a range of motion within the housing;
(c) an energy supply unit from which energy is accessible to devices outside the housing; and
(d) at least one energy transducer coupled to the energy supply unit so as to feed energy to said unit when the transducer is activated, wherein;
(e) at least the second mass element is arranged to receive collisionally transferred kinetic energy from the first mass element when the housing is in an effective state of mechanical agitation;
(f) the energy transducer is arranged to be activated by relative motion between the housing and at least one said mass element other than the first, wherein said relative motion is excited by at least a portion of the kinetic energy collisionally transferred from the first mass element; and
(g) at least one mass element arranged for activating the energy transducer is at least five times smaller in mass than the first mass element and is arranged so that the mass difference between itself and the first mass element causes it to undergo velocity multiplication relative to the first mass element.
5 Assignments
0 Petitions
Accused Products
Abstract
An improved vibrational energy harvester includes a housing and at least one energy transducer. In an embodiment, a second mass element is arranged to receive collisionally transferred kinetic energy from a first mass element when the housing is in an effective state of mechanical agitation, resulting in relative motion between the housing and at least one of the second and further mass elements. The energy transducer is arranged to be activated by the resulting relative motion between the housing and at least one of the second and further mass elements. In a further embodiment, kinetic energy is collisionally transferred in a velocity-multiplying arrangement from the first to a second or further mass element that has a range of linear ballistic motion. The energy transducer is arranged to be activated, at least in part, by the ballistic motion of the second or further mass element. The energy transducer, or a portion of it, may be attached to the housing, or it may be attached to another of the mass elements.
-
Citations
20 Claims
-
1. Apparatus comprising:
-
(a) a housing; (b) a first and at least a second mass element, each said element having a range of motion within the housing; (c) an energy supply unit from which energy is accessible to devices outside the housing; and (d) at least one energy transducer coupled to the energy supply unit so as to feed energy to said unit when the transducer is activated, wherein; (e) at least the second mass element is arranged to receive collisionally transferred kinetic energy from the first mass element when the housing is in an effective state of mechanical agitation; (f) the energy transducer is arranged to be activated by relative motion between the housing and at least one said mass element other than the first, wherein said relative motion is excited by at least a portion of the kinetic energy collisionally transferred from the first mass element; and (g) at least one mass element arranged for activating the energy transducer is at least five times smaller in mass than the first mass element and is arranged so that the mass difference between itself and the first mass element causes it to undergo velocity multiplication relative to the first mass element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. Apparatus comprising:
-
(a) a housing; (b) a first and at least a second mass element, each said element having a range of motion within the housing; (c) an energy supply unit from which energy is accessible to devices outside the housing; and (d) at least one energy transducer coupled to the energy supply unit so as to feed energy to said unit when the transducer is activated, wherein; (e) at least the second mass element is arranged to receive collisionally transferred kinetic energy from the first mass element when the housing is in an effective state of mechanical agitation; (f) the energy transducer is arranged to be activated by relative motion between the housing and at least one said mass element other than the first, wherein said relative motion is excited by at least a portion of the kinetic energy collisionally transferred from the first mass element; and the apparatus further comprises at least one pair of mutually collidable mass elements that are supported relative to the housing by mutually independent suspensions.
-
-
11. Apparatus comprising:
-
(a) a housing; (b) a first mass element and one or more further mass elements arranged in a velocity-multiplying arrangement in which the further mass elements are arranged to receive collisionally transferred kinetic energy from the first mass element when the housing is in an effective state of mechanical agitation, and in which at least one of the further mass elements is at least five times smaller in mass than the first mass element and is arranged so that the mass difference between itself and the first mass element causes it to undergo velocity multiplication relative to the first mass element; (c) an energy supply unit from which energy is accessible to devices outside the housing; and (d) at least one energy transducer coupled to the energy supply unit so as to feed energy to said unit when the transducer is activated, wherein; (e) at least one of the further mass elements having less mass than the first mass element has a range of ballistic motion; and (f) the energy transducer is arranged to be activated by the ballistic motion of said further mass element having a range of ballistic motion. - View Dependent Claims (12, 13, 14)
-
-
15. Apparatus comprising:
-
(a) a housing; (b) a first mass element and one or more further mass elements arranged in a velocity-multiplying arrangement in which the further mass elements are arranged to receive collisionally transferred kinetic energy from the first mass element when the housing is in an effective state of mechanical agitation, at least one of the further mass elements having less mass than the first mass element; (c) an energy supply unit from which energy is accessible to devices outside the housing; and (d) at least one energy transducer coupled to the energy supply unit so as to feed energy to said unit when the transducer is activated, wherein; (e) at least one of the further mass elements having less mass than the first mass element has a range of ballistic motion; (f) the energy transducer is arranged to be activated by the ballistic motion of said further mass element having a range of ballistic motion; and at least one of the further mass elements has a range of ballistic motion lying within a cavity in the first mass element.
-
-
16. Apparatus comprising:
-
(a) a housing; (b) a first and at least a second mass element, each said element having a range of motion within the housing; (c) an energy supply unit from which energy is accessible to devices outside the housing; and (d) at least one energy transducer coupled to the energy supply unit so as to feed energy to said unit when the transducer is activated, wherein; (e) at least the second mass element is arranged to receive collisionally transferred kinetic energy from the first mass element when the housing is in an effective state of mechanical agitation; (f) the energy transducer is arranged to be activated by relative motion between the housing and at least one said mass element other than the first, wherein said relative motion is excited by at least a portion of the kinetic energy collisionally transferred from the first mass element; and (g) at least one of the mass elements is arranged to give and/or to receive collisionally transferred kinetic energy and is constrained to torsional motion. - View Dependent Claims (17, 18, 19, 20)
-
Specification