Apparatus for transferring electric power from a mobile unit placed in various orientation on a stationary unit
First Claim
1. An apparatus for transferring electrical power (100) comprising:
- (a) at least one planar stationary unit set (101) including;
(i) a planar stationary unit phase assembly (10), having a predetermined maximum cross section width dimension d1; and
(ii) a planar stationary unit zero assembly (11), having a predetermined maximum cross section dimension d3, wherein said planar stationary unit phase assembly (10) and said planar stationary unit zero assembly (11) being encased inside said planar stationary unit set (101) aside one another; and
(b) at least one mobile unit set (102) including;
(i) a mobile unit phase assembly (20);
(ii) a mobile unit zero assembly (21); and
(iii) a mobile unit set body (102a),wherein said mobile unit phase assembly (20) and said mobile unit zero assembly (21) being encased inside said mobile unit set body (102a), aside one another, and wherein said at least one mobile unit set (102) has a mobile unit set body edge (102b), wherein there is at least one of said planar stationary unit phase assembly (10) under said mobile unit phase assembly (20), and at least one of said planar stationary unit zero assembly (11) under said mobile unit zero assembly (21).
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Accused Products
Abstract
An apparatus and method for transferring power from a stationary unit to a mobile unit are introduced in order to improve on the existing methods of supplying power to appliances and mobile devices.
The stationary unit is comprised of multiple magnetic and electromagnetic switches, which are activated only when in close proximity to a mobile unit comprising of a set of magnets of opposite polarity to the magnetic and electromagnetic switches in the stationary unit thus ensuring a safe and easy to use system for supplying power from the stationary unit to the mobile unit.
The stationary unit may be large enough to allow the connection of multiple mobile units on a single stationary unit. Each mobile unit can then adjust the voltage supplied by the stationary unit to fit the requirements of its own appliance or mobile device thus allowing different types of devices to connect to the same source (the stationary unit).
50 Citations
20 Claims
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1. An apparatus for transferring electrical power (100) comprising:
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(a) at least one planar stationary unit set (101) including; (i) a planar stationary unit phase assembly (10), having a predetermined maximum cross section width dimension d1; and (ii) a planar stationary unit zero assembly (11), having a predetermined maximum cross section dimension d3, wherein said planar stationary unit phase assembly (10) and said planar stationary unit zero assembly (11) being encased inside said planar stationary unit set (101) aside one another; and (b) at least one mobile unit set (102) including; (i) a mobile unit phase assembly (20); (ii) a mobile unit zero assembly (21); and (iii) a mobile unit set body (102a), wherein said mobile unit phase assembly (20) and said mobile unit zero assembly (21) being encased inside said mobile unit set body (102a), aside one another, and wherein said at least one mobile unit set (102) has a mobile unit set body edge (102b), wherein there is at least one of said planar stationary unit phase assembly (10) under said mobile unit phase assembly (20), and at least one of said planar stationary unit zero assembly (11) under said mobile unit zero assembly (21). - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. An apparatus for transferring electrical power (100) comprising:
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(a) a plurality of planar stationary unit sets (101), wherein each one of said plurality of planar stationary unit sets (101) includes; (i) a planar stationary unit phase assembly (10), having a predetermined maximum cross section dimension d1; and (ii) a planar stationary unit zero assembly (11), having a predetermined maximum cross section dimension d3, wherein said planar stationary unit phase assembly (10) and said planar stationary unit zero assembly (11) being encased inside said planar stationary unit set (101) aside one another; and (b) at least one mobile unit set (102), having a mobile unit set body edge (102b), wherein each one of said at least one mobile unit set (102) includes; (i) a mobile unit phase assembly (20), having a mobile unit phase assembly edge (102c); (ii) a mobile unit zero assembly (21), having a mobile unit zero assembly edge (102d); and (iii) a mobile unit set body (102a), wherein said mobile unit phase assembly (20) and said mobile unit zero assembly (21) being encased inside said mobile unit set body (102a), aside one another, and wherein said at least one mobile unit set (102) has a mobile unit set body edge (102b), wherein there is a minimal distance d2 from said mobile unit zero assembly edge (102d) to said mobile unit set body edge (102b), wherein there is a distance d4 between said mobile unit zero assembly edge (102d) and said mobile unit phase assembly edge (102c), wherein each one of said minimal distance d2 from said mobile unit zero assembly edge (102d) to said mobile unit set body edge (102b) is larger than each one of said maximum cross section dimension d1 of said planar stationary unit phase assembly (10), wherein each one of said minimal distance d2 from said mobile unit zero assembly edge (102d) to said mobile unit set body edge (102b) is larger than said maximum cross section dimension d3 of each one of said planar stationary unit zero assembly (11), wherein each one of said distance d4 is larger than said maximum cross section dimension d1 of each one of said planar stationary unit phase assembly (10), wherein there is at least one of said planar stationary unit phase assembly (10) under said mobile unit phase assembly (20), and at least one of said planar stationary unit zero assembly (11) under said mobile unit zero assembly (21).
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Specification