CN1440106A

CN1440106A - Wireless power supply devices

Info

Publication number: CN1440106A
Application number: CN03113999A
Authority: CN
Inventors: 陈远鸿; 陈懿豪; 陈美华
Original assignee: Individual
Current assignee: Individual
Priority date: 2003-03-27
Filing date: 2003-03-27
Publication date: 2003-09-03
Also published as: WO2004086588A1

Abstract

This invention belongs to the technical field of the power source and is a wireless power source apparatus. The power source available currently requires power source lines connected to the power source transformer, so it is not convenient if an equipment using electricity is in a moving status; if a battery were used, the equipment would be not able to run because the energy of the battery would be consumed up. Now these problems are solved. Said wireless power source comprises a power source transmitter and a power source receiver. Said power source transmitter has a transmitting coil wound on a magnet conductor and a oscillation circuit of high frequency connected to the transmitting coil; said power source receiver is a receiving coil wound on a magnet conductor.

Description

Wireless power device

Technical field

The invention belongs to power technique fields, is a wireless power device.

Background technology

Existing power supply mainly contains by the AC power of power transformer output and passes through battery or the DC power supply of storage battery output, when power consumption equipment uses power supply at needs, as use alternating current, needing a power line links to each other with power transformer, since the restriction of power line, very inconvenience when power consumption equipment is in mobile status.And when using battery, because the energy storage of battery is limited, in use for some time, power supply energy can be depleted, causes power consumption equipment to work.

Summary of the invention

The object of the present invention is to provide one not need power line to connect the wireless power device that just can realize power delivery.

For realizing purpose of the present invention, described wireless power device comprises power supply reflector and power supply receiver, and described power supply reflector has the transmitting coil that is wound on the magnetic conductor, the high-frequency oscillating circuits that is connected with transmitting coil; Described power supply receiver is the receiving coil that is wound on the magnetic conductor.

Owing to adopted power supply reflector and power supply receiver, can convert direct current energy or alternating current energy line to direct voltage, be transformed into high frequency electric source voltage through high-frequency oscillating circuits, be added on the transmitting coil in the power supply reflector, launch by magnetic conductor, sense the high frequency electric source signal by the magnetic conductor in the power supply receiver again, by receiving coil output, thus the wireless transmission of realization power supply.

Description of drawings

Fig. 1 is the structural representation of wireless power device of the present invention.

Fig. 2 is the circuit structure diagram of Fig. 1.

Fig. 3 is the concrete schematic diagram of Fig. 1.

Fig. 4 is the structure chart of magnetic conductor.

Fig. 5 is the structure chart of magnetic conductor.

Fig. 6 is the structure chart of magnetic conductor.

Embodiment

Below in conjunction with accompanying drawing, the embodiment of wireless power device of the present invention is described in further detail:

As shown in Fig. 1,2, wireless power device of the present invention comprises power supply reflector and power supply receiver, described power supply reflector has magnetic conductor 1, magnetic conductor 1 is a T word shape square column type, its internal layer is an inner insulating layer 2, the centre is a transmitting coil 3, and skin is an external insulation layer 4, and transmitting coil 3 links to each other with high-frequency oscillating circuits 5.Described power supply receiver has magnetic conductor 6, and magnetic conductor 6 is a T word shape square column type, and same, its internal layer is an inner insulating layer 7, and the centre is a receiving coil 8, and skin is an external insulation layer 9.

As shown in Figure 2, described high-frequency oscillating circuits comprises emitter and collector series connection triode Q1, the Q2 at dc power supply terminal, be serially connected in capacitor C 2, the C4 of dc power supply terminal, be connected across resistance R 3, R6 between triode Q1, Q2 base stage and the collector electrode respectively, be connected across resistance R 1, D1 between triode Q1, Q2 base stage and the emitter after the serial connection respectively, R4, D2 are serially connected with capacitor C 1, the resistance R 2 of triode Q1 base stage, sending and receiving ray circle L1 between resistance R 2 and the resistance R 1; Be serially connected with capacitor C 3, the resistance R 5 of triode Q2 base stage, sending and receiving ray circle L3 between resistance R 5 and the resistance R 4, transmitting coil L2 are connected between the tie point of emitter of the tie point of capacitor C 2, C4 and triode Q1 collector electrode and triode Q2.

When A, the B of high-frequency oscillating circuits end added direct voltage, triode Q1, Q2 produced self-excitation, form multi-harmonic-oscillations, form high-frequency oscillation voltage in transmitting coil L1 and transmitting coil L3.And the power supply receiver is subjected to the electromagnetic induction of power supply reflector at C, D end output high-frequency alternating voltage.According to the difference of load characteristic, at the receiving coil L4 two ends of power supply receiver and connect (or serial connection) capacitor C 5 is arranged, can overcome the internal resistance of power supply receiver, for pure load, make power supply be exported fully as bulb.

As shown in Figure 4, described magnetic conductor is cylindrical, and end face has wafer architecture.

As shown in Figure 5, described magnetic conductor is an I-shape construction.

As shown in Figure 6, described magnetic conductor is polygonal structure, as triangle or hexagonal structure.

When magnetic conductor is cylindrical, end face has wafer architecture, or magnetic conductor is when being I-shape construction, the magnetic conductor of power supply reflector and power supply receiver relatively near the time, the power supply receiver just can have power supply to export.When magnetic conductor is triangle or hexagonal structure.The magnetic conductor of power supply reflector and power supply receiver relatively over against the time, the power supply receiver just has power supply output.

During use, a power supply receiver is installed on the electric equipment of needs motion, and several power supply reflectors are installed on its track that need pass through, this electric equipment just can move under the situation in charged source not.When using electric motor car, also the power supply receiver can be installed in electric motor car in the future, and the power supply reflector is installed in the garage,, just can charge as long as the garage is got back in electric motor car one.The power supply receiver is installed in the battery of mobile phone or laptop computer, then can be charged to it by the power supply reflector, avoided high-voltage ac power directly with the contacting of mobile phone or laptop computer, and generation security appliance insecure problem.

Claims

1. a wireless power device is characterized in that comprising power supply reflector and power supply receiver, and described power supply reflector comprises emission magnetic conductor and coiling transmitting coil thereon thereof, is connected with high-frequency oscillating circuits on the described transmitting coil; Described power supply receiver is by being wound on the receiving coil that receives on the magnetic conductor.

2. wireless power device according to claim 1 is characterized in that described magnetic conductor is a FERRITE CORE.

3. wireless power device according to claim 2, it is characterized in that described high-frequency oscillating circuits bag emitter and collector series connection triode Q1, Q2 at dc power supply terminal, be serially connected in capacitor C 2, the C4 of dc power supply terminal, be connected across resistance R 3, R6 between triode Q1, Q2 base stage and the collector electrode respectively, be connected across resistance R 1, D1 between triode Q1, Q2 base stage and the emitter after the serial connection respectively, R4, D2, be serially connected with capacitor C 1, the resistance R 2 of triode Q1 base stage, sending and receiving ray circle L1 between resistance R 2 and the resistance R 1; Be serially connected with capacitor C 3, the resistance R 5 of triode Q2 base stage, sending and receiving ray circle L3 between resistance R 5 and the resistance R 4, transmitting coil L2 are connected between the tie point of emitter of the tie point of capacitor C 2, C4 and triode Q1 collector electrode and triode Q2.

4. according to claim 2,3 described wireless power devices, it is characterized in that described magnetic conductor is cylindrical, end face has wafer architecture.

5. according to claim 2,3 described wireless power devices, it is characterized in that described magnetic conductor is an I-shape construction.

6. according to claim 2,3 described wireless power devices, it is characterized in that described magnetic conductor is polygonal structure.