Correlated magnetic belt and method for using the correlated magnetic belt
First Claim
1. A belt, comprising:
- a strap including a first field emission structure;
an object including a second field emission structure, where the object is attached to the strap when the first and second field emission structures are located next to one another and have a certain alignment with respect to one another, where each of the first and second field emission structures include a plurality of field emission sources having positions and polarities relating to a desired spatial force function that corresponds to a relative alignment of the first and second field emission structures within a field domain, said spatial force function being in accordance with a code, said code corresponding to a code modulo of said first plurality of field emission sources and a complementary code modulo of said second plurality of field emission sources, said code defining a peak spatial force corresponding to substantial alignment of said code modulo of said first plurality of field emission sources with said complementary code modulo of said second plurality of field emission sources, said code also defining a plurality of off peak spatial forces corresponding to a plurality of different misalignments of said code modulo of said first plurality of field emission sources and said complementary code modulo of said second plurality of field emission sources, said plurality of off peak spatial forces having a largest off peak spatial force, said largest off peak spatial force being less than half of said peak spatial force.
2 Assignments
0 Petitions
Accused Products
Abstract
A belt is described herein that uses correlated magnets to enable objects to be secured thereto and removed therefrom. Some examples of such a belt include a construction work belt, a soldier belt, an astronaut belt a home handyman belt, a plumber'"'"'s belt, an electrician'"'"'s belt, a telephone repairman'"'"'s belt, a lineman'"'"'s belt, a fisherman'"'"'s belt, a hunter'"'"'s belt, a sports belt, and a scuba weight belt. For instance, the scuba weigh belt can have different types of objects secured thereto and removed therefrom such as a weight pouch, a utility pocket, a dive light (flash light), a camera, a scuba lanyard, a navigation board, a depth gauge, a spear gun, or any type of military equipment.
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Citations
25 Claims
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1. A belt, comprising:
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a strap including a first field emission structure; an object including a second field emission structure, where the object is attached to the strap when the first and second field emission structures are located next to one another and have a certain alignment with respect to one another, where each of the first and second field emission structures include a plurality of field emission sources having positions and polarities relating to a desired spatial force function that corresponds to a relative alignment of the first and second field emission structures within a field domain, said spatial force function being in accordance with a code, said code corresponding to a code modulo of said first plurality of field emission sources and a complementary code modulo of said second plurality of field emission sources, said code defining a peak spatial force corresponding to substantial alignment of said code modulo of said first plurality of field emission sources with said complementary code modulo of said second plurality of field emission sources, said code also defining a plurality of off peak spatial forces corresponding to a plurality of different misalignments of said code modulo of said first plurality of field emission sources and said complementary code modulo of said second plurality of field emission sources, said plurality of off peak spatial forces having a largest off peak spatial force, said largest off peak spatial force being less than half of said peak spatial force. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A method for enabling an object to be attached to and removed from a belt, said method comprising the steps of:
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attaching a first field emission structure to the belt; attaching a second field emission structure to the object; and aligning the first and second field emission structures so the object attaches to the belt when the first and second field emission structures are located next to one another, where each of the first and second field emission structures include a plurality of field emission sources having positions and polarities relating to a desired spatial force function that corresponds to a relative alignment of the first and second field emission structures within a field domain, said spatial force function being in accordance with a code, said code corresponding to a code modulo of said first plurality of field emission sources and a complementary code modulo of said second plurality of field emission sources, said code defining a peak spatial force corresponding to substantial alignment of said code modulo of said first plurality of field emission sources with said complementary code modulo of said second plurality of field emission sources, said code also defining a plurality of off peak spatial forces corresponding to a plurality of different misalignments of said code modulo of said first plurality of field emission sources and said complementary code modulo of said second plurality of field emission sources, said plurality of off peak spatial forces having a largest off peak spatial force, said largest off peak spatial force being less than half of said peak spatial force. - View Dependent Claims (19, 20, 21, 22, 23)
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- 24. A strap comprising one end including a first field emission structure and another end including a second field emission structure, wherein the one end is attached to the other end when the first field emission structure and the second field emission structure are located next to one another and have a certain alignment with respect to one another, where each of the first and second field emission structures include a plurality of field emission sources having positions and polarities relating to a desired spatial force function that corresponds to a relative alignment of the first and second field emission structures within a field domain, said spatial force function being in accordance with a code, said code corresponding to a code modulo of said first plurality of field emission sources and a complementary code modulo of said second plurality of field emission sources, said code defining a peak spatial force corresponding to substantial alignment of said code modulo of said first plurality of field emission sources with said complementary code modulo of said second plurality of field emission sources, said code also defining a plurality of off peak spatial forces corresponding to a plurality of different misalignments of said code modulo of said first plurality of field emission sources and said complementary code modulo of said second plurality of field emission sources, said plurality of off peak spatial forces having a largest off peak spatial force, said largest off peak spatial force being less than half of said peak spatial force.
Specification