WIRELESS POWER STATIONS
A power station includes a connection box with at least one receptacle and a wireless power transmitting assembly operatively connected to the connection box. The wireless power transmitting assembly is adapted to transfers wireless power. A power cord may be connected to the connection box to supply power to the connection box and the wireless power transmitting assembly.
The present application claims the benefit of the filing dates of Provisional Application Ser. No. 61/947,178, filed Mar. 3, 2014, Provisional Application Ser. No. 61/954,322, filed Mar. 17, 2014, and Provisional Application Ser. No. 61/981,982, filed Apr. 21, 2014, which applications are hereby incorporated by reference in their entireties.
FIELD OF THE PRESENT DISCLOSUREThe present disclosure describes applications for wireless power transfer technology.
BACKGROUND OF THE PRESENT DISCLOSUREWireless transfer of electrical power using magnetic inductance technology is known and is already used in commercial applications such as chargers for electrical toothbrushes, and more recently, charging mats for smartphones and other personal electronic devices. However, this technology can be applied in new and innovative ways as further described in the present disclosure.
A new wireless power transfer technology known as magnetic resonance technology is emerging. Coils that act as transmitters and receivers for wireless power transmission using this technology are just starting to become commercially available. Magnetic resonance technology allows for power transfer through an air gap or through several inches of solid material, such as a wood tabletop. Because of this feature, magnetic resonance technology has commercial applications for which magnetic inductance technology is not suitable.
BRIEF SUMMARY OF THE PRESENT DISCLOSUREAccording to the present disclosure, a power station may comprise a connection box including at least one electrical receptacle for powering or charging an electrical device and a wireless power transmitting assembly operatively connected to the connection box, the wireless power transmitting assembly adapted to transfer wireless power. A power cord may be connected to the connection box for supplying power to the connection box and the wireless power transmitting assembly.
According to embodiments, the power station may additionally comprise a securing mechanism for securing the power station to a surface.
According to embodiments, the wireless power transmitting assembly may be disposed inside a housing that is located remotely from the connection box.
According to embodiments, the power station may additionally comprise a mechanical adjusting device configured to allow a distance between a transmitter coil of the wireless power transmitting assembly and the surface to be changed.
According to embodiments, the power station may additionally comprise a locking mechanism adapted to secure the transmitter coil in a desired position once adjusted.
According to embodiments, the mechanical adjusting device may allow the entire wireless power transmitting assembly to be moved relative to the surface.
According to embodiments, the power station may additionally comprise an actuator that adjusts the position of the wireless power transmitting assembly for optimal transmission distance and strength based on a thickness and type of material of the surface.
According to embodiments, the power station may additionally comprise a second wireless power transmitting assembly located on a surface of the connection box.
According to embodiments, the second wireless power transmitting assembly may be an inductive charging pad mounted to a top surface of the connection box.
According to the present disclosure, a wireless power transmitting assembly may comprise a housing configured to be attached to the underside of a surface and a transmitter coil disposed within the housing and adapted to generate a wireless power field. A power supply may supply power to the transmitter coil, and a mechanical adjusting device may allow a distance between the transmitter coil and the surface to be changed to adjust a strength of the wireless power field at the surface.
According to embodiments, the mechanical adjusting device may attach the housing to the underside of the surface and may allow the entire housing to be moved relative to the surface.
According to embodiments, the wireless power transmitting assembly may additionally comprise an actuator associated with the housing for adjusting a position of the housing to optimize transmission distance and strength of the wireless power field based on a thickness and type of material of the surface.
According to embodiments, the wireless power transmitting assembly may additionally comprise a locking mechanism adapted to secure the transmitter coil in a desired position once adjusted.
According to embodiments, the mechanical adjusting device may be configured to allow the transmitter coil to move within an interior of the housing.
According to embodiments, the wireless power transmitting assembly may additionally comprise a locking mechanism adapted to secure the transmitter coil in a desired position once adjusted by preventing access to the interior of the housing.
According to embodiments, the wireless power transmitting assembly may additionally comprise a plurality of indications provided on the mechanical adjustment device indicating preferred positions of the transmitter coil for particular surface thicknesses.
According to the present disclosure, a power station may comprise a table having a top and at least one leg connected to the top. A receiver coil may be disposed in the at least one leg and configured to interoperate with a first transmitter assembly disposed beneath the at least one leg to conduct a wireless power transfer. The top of the table may include a power-providing section for powering or charging devices.
According to embodiments, the power station may include a second transmitter assembly for wireless transmitting power. The second transmitter assembly may include a transmitting coil located at the top of the table that is electrically connected to the receiver coil for receiving power therefrom.
According to embodiments, the power section may include at least one electrical receptacle for powering or charging a device through a wired connection.
According to an embodiment, the power station may additionally comprise a weatherproof pedestal housing the first transmitter assembly.
These and other objects, features and advantages of the present disclosure will become apparent in light of the detailed description of embodiments thereof, as illustrated in the accompanying drawings.
As will be recognized by those of ordinary skill in the pertinent art, numerous changes and modifications may be made to the above-described embodiments of the present disclosure without departing from the spirit of the invention as defined in the appended claims. Accordingly, the particular embodiments described in this specification are to be taken as merely illustrative and not limiting.
The power station 10, shown in
As discussed in connection with
The embodiments shown in
In one embodiment, the enclosure 735 is fixedly mounted to underside 715 of the subject surface 12 and the relevant power transmitting hardware's position can be vertically adjusted within the enclosure to vary the height of the optimal transmitter/receiver power transfer interaction near the upper face of the surface 12. Thus, while the enclosure 735 is fixedly attached to the surface 12, the coil 736 is adjustable within the enclosure 735 to set the optimal transmission distance 750 between the transmitter coil 736 and a receiver 752 disposed within the device 20. While the position of the transmitter coil 736 is adjustable within the enclosure, the position of other components, such as the power supply 738 and circuit board 739 may or may not be adjustable within the enclosure 735. The transmitter coil 736 can be adjusted by various mechanical adjusting devices 754, such as a threaded rod or the like, and can also include a locking mechanism 756 to ensure that the transmission distance cannot be easily reset once set to a desired position. The locking mechanism 756 may advantageously preclude either accidental resetting or resetting by unauthorized persons and may include either a tool for adjusting the transmitter distance 750 or other similar mechanism to preclude tampering.
Referring to
Referring to
In the embodiments of
These embodiments advantageously provide flexible and cost effective means of accommodating a variety of surface thicknesses by mechanically adjusting the height of the transmitter of the wireless power transmitting assembly relative the upper face of the surface 12 where receivers in devices 20 will or may reside.
Although the invention has been shown and described with respect to exemplary embodiments thereof, it should be understood by those skilled in the art that various changes, omissions, and additions may be made thereto, without departing from the spirit and scope of the invention.
Claims
1. A power station comprising:
- a connection box including at least one electrical receptacle for powering or charging an electrical device;
- a wireless power transmitting assembly operatively connected to the connection box, the wireless power transmitting assembly adapted to transfer wireless power; and
- a power cord connected to the connection box for supplying power to the connection box and the wireless power transmitting assembly.
2. The power station according to claim 1, additionally comprising a securing mechanism for securing the power station to a surface.
3. The power station according to claim 1, wherein the wireless power transmitting assembly is disposed inside of a housing that is located remotely from the connection box.
4. The power station according to claim 3, additionally comprising a mechanical adjusting device configured to allow a distance between a transmitter coil of the wireless power transmitting assembly and the surface to be changed.
5. The power station according to claim 4, additionally comprising a locking mechanism adapted to secure the transmitter coil in a desired position once adjusted.
6. The power station according to claim 4, wherein the mechanical adjusting device allows the entire wireless power transmitting assembly to be moved relative to the surface.
7. The power station according to claim 6, additionally comprising an actuator that adjusts the position of the wireless power transmitting assembly for optimal transmission distance and strength based on a thickness and type of material of the surface.
8. The power station according to claim 1, additionally comprising a second wireless power transmitting assembly located on a surface of the connection box.
9. The power station according to claim 8, wherein the second wireless power transmitting assembly is an inductive charging pad mounted to a top surface of the connection box.
10. A wireless power transmitting assembly comprising:
- a housing configured to be attached to the underside of a surface;
- a transmitter coil disposed within the housing and adapted to generate a wireless power field;
- a power supply supplying power to the transmitter coil; and
- a mechanical adjusting device configured to allow a distance between the transmitter coil and the surface to be changed to adjust a strength of the wireless power field at the surface.
11. The wireless power transmitting assembly according to claim 10, wherein the mechanical adjusting device attaches the housing to the underside of the surface and allows the entire housing to be moved relative to the surface.
12. The wireless power transmitting assembly according to claim 11, additionally comprising an actuator associated with the housing for adjusting a position of the housing to optimize transmission distance and strength of the wireless power field based on a thickness and type of material of the surface.
13. The wireless power transmitting assembly according to claim 10, additionally comprising a locking mechanism adapted to secure the transmitter coil in a desired position once adjusted.
14. The wireless power transmitting assembly according to claim 10, wherein the mechanical adjusting device is configured to allow the transmitter coil to move within an interior of the housing.
15. The wireless power transmitting assembly according to claim 14, additionally comprising a locking mechanism adapted to secure the transmitter coil in a desired position once adjusted by preventing access to the interior of the housing.
16. The wireless power transmitting assembly according to claim 10, additionally comprising a plurality of indications provided on the mechanical adjustment device indicating preferred positions of the transmitter coil for particular surface thicknesses.
17. A power station comprising:
- a table having a top and at least one leg connected to the top;
- a receiver coil disposed in a lower end of the at least one leg distal from the top, the receiver coil configured to interoperate with a first transmitter assembly disposed beneath the at least one leg to conduct a wireless power transfer; and
- wherein the top of the table includes a power-providing section for powering or charging devices.
18. The power station according to claim 17, wherein the power section includes a second transmitter assembly for wireless transmitting power, the second transmitter assembly having a transmitting coil located at the top of the table, the second transmitter assembly electrically connected to the receiver coil for receiving power therefrom.
19. The power station according to claim 17, wherein the power section includes at least one electrical receptacle for powering or charging a device through a wired connection.
20. The power station according to claim 17, additionally comprising a weatherproof pedestal housing the first transmitter assembly.
Type: Application
Filed: Mar 3, 2015
Publication Date: Sep 3, 2015
Inventors: Mark Makwinski (Cromwell, CT), Richard R. Picard (West Hartford, CT)
Application Number: 14/637,036