MULTI-DIRECTIONAL WIRELESS POWER SUPPLY DEVICE APPLYING CAMBERED COILS FOR COPULING TO ELECTRICITY

Abstract

A multi-directional wireless power supply device applying cambered coils for coupling to electricity comprises a power base. A top surface of a case of the power base is defined as a cambered surface. An electric joint is disposed on the case and connected to a power converting unit disposed in the case. The power converting unit is further connected to a primary coil whereby the primary coil accompanying with a secondary coil of an external electric equipment can attain an electromagnetic induction to transmit the electrical energy to the external electric equipment wirelessly for using and allow the external electric equipment to be rotated in multiple directions for attaining the multi-directional wireless power supply, which also facilitates a convenient detachment and easy carrying of the external electric equipment.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a multi-directional wireless power supply device applying cambered coils for coupling to electricity.

2. Description of the Related Art

The dependence on the electric equipments grows with time due to the scientific and technical advancement. Generally, the conventional electric equipment applies the wire to transmit electric power for supplying requisite electrical energy. In other words, the conventional power supply transmits electricity via a wired power supply device for supplying the requisite electrical energy to the external electric equipment.

The wired power supply device generally includes an electric joint for being electrically connected to an external power. The electric joint is electrically connected to the external electric equipment via a wire for supplying the requisite electrical energy of the external electric equipment. When the conventional electric equipment, such as lamps and screens, needs a multi-directional rotation at the time of operating, the wire may be twisted or even broken due to the rotation, with the result that the application of the external electric equipment is subject to the wire of the power supply device, so that the operating angle of the external electric equipment is limited. Hence, the inventor of the present invention realized the mentioned disadvantages and considered that the conventional power supply device could be improved, thereby presenting the present invention.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a multi-directional wireless power supply device applying cambered coils for coupling to electricity, which allows the external electric equipments to be operated with multiple directions and keeps the device from the limitation of the rotating angles. Moreover, the multi-directional wireless power supply device applying cambered coils for coupling to electricity of the present invention can also supply requisite electrical energy for the external electric equipment wirelessly so as to attain the object of multi-directional wireless power supply.

The multi-directional wireless power supply device applying cambered coils for coupling to electricity comprises a power base which includes a case. A top surface of the case is defined as a cambered surface. An electric joint is disposed on the case for being electrically connected to an external power. A power converting unit is disposed in the case. One end of the power converting unit is electrically connected to the electric joint. The other end of the power converting unit is electrically connected to a primary coil. The primary coil is defined as a camber shape corresponding to the cambered surface of the case.

The multi-directional wireless power supply device applying cambered coils for coupling to electricity in accordance with the present invention applies the primary coil cooperating with a secondary coil disposed on an external electric equipment to transmit the electricity to the external electric equipment wirelessly by electromagnetic induction for meeting the demand. The wire connected between the external electric equipment and the electric joint can be omitted, so that the external electric equipment is actuated with a multi-directional rotation without limitation. The cambered surface is applied to connect the multi-directional wireless power supply device applying cambered coils for coupling to electricity and the external electric equipment, so that the external electric equipment can be rotated with multiple directions in the electromagnetic inducting scope of the primary coil for multi-directional wireless power supply. Furthermore, it is more convenient for conveniently detaching and easily carrying the external electric equipment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing a first preferred embodiment of the present invention;

FIG. 2 is a section view showing the first preferred embodiment of the present invention;

FIG. 3 is a schematic view showing the first preferred embodiment of the present invention in use;

FIG. 4 is the perspective view showing the first preferred embodiment of the present invention in practice;

FIG. 5 is a schematic view showing the first preferred embodiment of the present invention in another practice;

FIG. 6 is a schematic view showing a second preferred embodiment of the present invention in use;

FIG. 7 is a section view showing a third preferred embodiment of the present invention;

FIG. 8 is a schematic view showing the third preferred embodiment of the present invention in use; and

FIG. 9 is a schematic view showing a fourth preferred embodiment of the present invention in use.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIGS. 1 and 2, a perspective view and a section view of a first preferred embodiment of the present invention disclose a multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity. The multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity comprises:

A power base 10 including a case 11. A top surface of the case 11 is defined as a cambered surface 12. The case 11 can be completely sealed after assemble the elements. Herein, the top surface of the case 11 is defined as a concave cambered surface 121.

An electric joint 20 disposed on the case 11 for being electrically connected to an external power. Herein, the electric joint 20 is defined as a plug.

A power converting unit 30 disposed in the case 11. One end of the power converting unit 30 is electrically connected to the electric joint 20.

A primary coil 40 disposed in the case 11. Herein, the primary coil 40 is disposed on an inner wall of the top surface of the case 11 and defined as a camber shape corresponding to the cambered surface of the case 11. The primary coil 40 is electrically connected to the other end of the power converting unit 30.

A plurality of magnets 50 annularly disposed at an external peripheral of the primary coil 40 on the inner wall of the top surface of the case 11.

Referring to FIG. 3, a schematic view of the first preferred embodiment of the present invention in use is shown. An external electric equipment 200 is disposed on the concave cambered surface 121, namely a convex cambered surface of the external electric equipment 200 is disposed corresponding to the concave cambered surface of the case 11 to attain a limiting effect. Therefore, the external electric equipment 200 is actuated on the concave cambered surface 121 with the multi-directional rotation. A secondary coil 201 is disposed in the external electric equipment 200. A scope of the secondary coil 201 is smaller than the primary coil 40 so that the secondary coil 201 is completely disposed corresponding to the primary coil 40 while the external electric equipment 200 is operated in a multi-directional rotation. The multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity is electrically connected to the external power via the electric joint 20 for supplying the requisite electrical energy, which is converted into one conformable to a power standard of the external electric equipment 200 via the power converting unit 30 and then supplied to the primary coil 40. The primary coil 40 is applied to convert the electrical energy into a magnetic force. The secondary coil 201 disposed in the external electric equipment 200 generates the electrical energy by the electromagnetic induction and supplies the electrical energy to the external electric equipment 200 for using. The wire connected between the external electric equipment 200 and the electric joint 20 can be omitted, so that the external electric equipment 200 is rotated with multiple directions without limitation. Moreover, the cambered surface 12 is applied to connect the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity and the external electric equipment 200, so that the external electric equipment 200 is rotated with multiple directions in the scope of the electromagnetic induction of the primary coil 40 for attaining multi-directional wireless power supply.

In addition, a rechargeable battery 203 is preferably built in the external electric equipment 200. When the external electric equipment 200 is connected to the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity, the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity can not only supply power to the external electric equipment 200 but also charge the chargeable battery 203. When the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity does not supply electricity to the external electric equipment 200, the external electric equipment 200 still can be actuated by the electrical energy supplied by the chargeable battery 203. The multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity can be detachably connected to the external electric equipment 200 for allowing the external electric equipment 200 to be carried easily and used portably.

Referring to FIG. 3, the magnets 50 are preferably and annularly disposed on the inner wall of the top surface of the case 11 and cooperates with a plurality of magnets 202 which is annularly disposed in the external electric equipment 200, whereby the combination between the external electric equipment 200 and the concave cambered surface 121 is much stable. It is an embodiment that the magnets 202 can cooperate with the multi-directional rotation of the external electric equipment 200 by attracting the magnets 50 with each other via different angles. The magnets 202 disposed in the external electric equipment 200 can also be metals which are applied to attract the magnets.

Furthermore, the connection of the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity can be detachably connected to the external electric equipment 200. Therefore, the external electric equipment 200 can be speedily detached in emergency and supply power by the chargeable battery 203 which is built in the external electric equipment 200 for carrying.

Because of the detachable connection, the external electric equipment 200 is conveniently replaced, and the interchangeability thereof is also enhanced, which provides the user having more choices of the external electric equipments.

Moreover, the case 11 can be completely sealed after assembling the elements to apply the electromagnetic induction proceeding the wireless transmission without exposing the structure connected to the external electric equipment 200. It is no worry about the power leakage and the fully-sealed structure attains to the object of waterproofing.

Referring to FIG. 4 showing a schematic view of the first preferred embodiment of the present invention in practice and FIG. 3, the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity preferably includes a screen 300 disposed on the concave cambered surface 121. Therefore, the screen 300 can be actuated with a multi-directional rotation on the concave cambered surface 121 without limitation, and no wires are twisted or broken because of the rotation so as to allow the screen to be used in multiple directions.

Referring to FIG. 5, a schematic view of the first preferred embodiment of the present invention in another practice and FIG. 3, the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity preferably includes a lamp 400 disposed on the concave cambered surface 121. Therefore, the lamp 400 can be actuated with a multi-directional rotation on the concave cambered surface 121 without limitation, and no wires are twisted or broken because of the rotation for the lamp 400 to be used in multiple directions of lighting. Further, the chargeable battery is disposed in the lamp 400, which is convenient to be removed for carrying or for particular actions, such as taking off the lamp 400 for lighting in short distance, and lighting for searching things. Furthermore, it can also be speedily removed for a portable lighting in an emergency, such as a power failure.

Referring to FIG. 6, a schematic view of a second preferred embodiment of the present invention is shown. The difference between the multi-directional wireless power supply device applying cambered coils for coupling to electricity of the second preferred embodiment and the first preferred embodiment is that the concave cambered surface 121 covers the external electric equipment 200 with a convex cambered surface for limiting, which allows stabilizing the combination thereof without the arrangement of magnets and allows the external electric equipment 200 to be actuated with a multi-directional rotation.

Referring to FIGS. 7 and 8, a sectional view of a third preferred embodiment of the present invention and a schematic view of the third preferred embodiment of the present invention in use are shown. The difference between the multi-directional wireless power supply device applying cambered coils for coupling to electricity of the third preferred embodiment and the first preferred embodiment is that the top surface of the case 11 is defined as a convex cambered surface 122. In the third preferred embodiment, the external electric equipment 200 with concave cambered surface is disposed on the convex cambered surface 122 so as to be limited, which allows stabilizing the combination thereof by a plurality of magnets 202 which are annularly disposed in the external electric equipment 200 and allows the convex cambered surface 122 to be actuated on the external electric equipment 200 with a multi-directional rotation. A secondary coil 201 is preferably disposed in the external electric equipment 200 for executing the transmission of electrical energy via the electromagnetic induction. A scope of the secondary coil 201 is larger than the primary coil 40, so that the secondary coil 201 is corresponding to the primary coil 40 in the multi-directional rotating procedure of the external electric equipment 200.

Referring to FIG. 9, a schematic view of a fourth preferred embodiment of the present invention in use is shown. The difference between the multi-directional wireless power supply device applying cambered coils for coupling to electricity of the fourth preferred embodiment and the third preferred embodiment is that the electric joint 20 is defined as a screwed joint 21. A groove 13 is concavely disposed at the bottom side of the power base 10. The screwed joint 21 is embedded in the groove 13 for being screwed with a screwed joint base used for general bulbs so as to supply a market power, allowing the external electric equipment 200 which is combined with the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity to be actuated with a multi-directional rotation. The present device can be detachably connected to the external electric equipment 200 so that the external electric equipment 200 can be removed or installed without screwing so as to conveniently detach and replace the external electric equipment 200. Furthermore, the connection between the multi-directional wireless power supply device 100 applying cambered coils for coupling to electricity and the external electric equipment 200 is a electrically-connecting structure without exposing, so there is no worry about the power leakage, which is safer for removing and replacing the external electric equipment 200.

Claims

1. A multi-directional wireless power supply device applying cambered coils for coupling to electricity comprising: a power base including a case; a top surface of said case defined as a cambered surface;an electric joint disposed on said case for being electrically connected to an external power;a power converting unit disposed in said case; one end of said power converting unit being electrically connected to said electric joint; anda primary coil disposed in said case and formed into a camber shape corresponding to said cambered surface of said case; said primary coil being electrically connected to the other end of said power converting unit.

2. The multi-directional wireless power supply device applying cambered coils for coupling to electricity as claimed in claim 1, wherein said top surface of said case is defined as a concave cambered surface.

3. The multi-directional wireless power supply device applying cambered coils for coupling to electricity as claimed in claim 1, wherein said top surface of said case is defined as a convex cambered surface.

4. The multi-directional wireless power supply device applying cambered coils for coupling to electricity as claimed in claim 1, wherein said electric joint is defined as a plug.

5. The multi-directional wireless power supply device applying cambered coils for coupling to electricity as claimed in claim 1, wherein said electric joint is defined as a screwed joint; a groove is concavely disposed on a bottom side of said power base; said screwed joint is embedded in said groove for being screwed with a screwed joint base used for general bulbs so as to supply a market power.

6. The multi-directional wireless power supply device applying cambered coils for coupling to electricity as claimed in claim 1, wherein a plurality of magnets are annularly disposed at an external peripheral of said primary coil on an inner wall of said top surface of said case.