CN205230315U - Wireless rechargeable wireless switch device - Google Patents

Abstract

The utility model discloses a wireless rechargeable wireless switch device, include: charging base is equipped with the wireless emission module of charging in it, wireless emission module of charging and external alternate current power supply are connected, wireless switch is equipped with the wireless receiving module of charging, rechargeable battery and switch body in it, the wireless receiving module of charging and the wireless emission module of charging form the wireless network that charges, charges for rechargeable battery, the power input end of rechargeable battery linked switch body is for the power supply of switch body. The utility model discloses a wireless network that charges for wireless switch, not only brings the convenience for the user, also prolongs wireless switch's life, has reduced the environmental pollution that disposable battery probably brought because of production and recovery.

Description

Wireless charging type wireless switchgear

Technical field

The utility model relates to wireless switching, particularly relates to a kind of wireless charging type wireless switchgear.

Background technology

Along with the progress of science and technology, market there is various wireless switching, bring great convenience to the life of consumers in general, these wireless switchings are mostly for it provides electric energy needed for work by disposable battery, but following problem can be there is again in this: user needs to regularly replace battery, meeting adding users living cost like this; And replacing battery is also unfavorable for environmental protection frequently.

Utility model content

The technical problems to be solved in the utility model is the defect needing to regularly replace battery for wireless switching in prior art, provides a kind of without the need to changing battery, wireless charging type wireless switchgear easy to use.

The utility model solves the technical scheme that its technical matters adopts:

A kind of wireless charging type wireless switchgear is provided, comprises:

Charging base, is provided with wireless charging transmitter module in it, wireless charging transmitter module is connected with external ac power source;

Wireless switching, is provided with wireless charging receiver module, rechargeable battery and Switch main body in it, wireless charging receiver module and wireless charging transmitter module form wireless charging network, is rechargeable battery charging; The power input of rechargeable battery connecting valve body, for Switch main body is powered.

In wireless charging type wireless switchgear described in the utility model, the wireless charging network that wireless charging transmitter module and wireless charging receiver module are formed is magnetic inductive, magnetic resonance type or radio waves wireless charging network.

In wireless charging type wireless switchgear described in the utility model, charging base is provided with the groove corresponding with the bottom shape of wireless switching.

In wireless charging type wireless switchgear described in the utility model, charging base is provided with groove, and wireless switching is provided with the projection corresponding with this groove, and when wireless switching charges, this projection is placed in described groove.

In wireless charging type wireless switchgear described in the utility model, charging base is provided with projection, and wireless switching is provided with the groove corresponding with this projection, and when wireless switching charges, this projection is placed in described groove.

In wireless charging type wireless switchgear described in the utility model, charging base is provided with the first adsorption structure, wireless switching is provided with the second adsorption structure, and when wireless switching charges, wireless switching is fixed on charging base by the absorption affinity produced between two adsorption structures.

In wireless charging type wireless switchgear described in the utility model, the first adsorption structure and the second adsorption structure are magnet, or one of them is magnet, and another is magnetisable material.

In wireless charging type wireless switchgear described in the utility model, the current oscillator that wireless charging transmitter module comprises the first coil and is connected with this first coil, current oscillator is connected with external ac power source;

The electric current follower that wireless charging receiver module comprises the second coil and is connected with this second coil, the electromagnetic energy that the second coil receives the first coil produces induction current.

In wireless charging type wireless switchgear described in the utility model, wireless charging transmitter module comprises wireless charging radiating circuit and the first coil, the input end of wireless charging radiating circuit is connected with external ac power source, the output terminal of wireless charging radiating circuit is electrically connected with the first coil, converts electrical energy into magnetic energy by the first coil;

Wireless charging receiver module comprises wireless charging receiving circuit and the second coil, and the second coil receives the magnetic energy of the first coil, and the magnetic energy that the second coil receives is converted to electric energy by wireless charging receiving circuit, is rechargeable battery charging.

In wireless charging type wireless switchgear described in the utility model, the first coil is identical with the second coil resonance frequency, and the first coil and the second coil realize Energy Transfer by electromagentic resonance mode.

The beneficial effect that the utility model produces is: wireless charging type wireless switchgear of the present utility model, comprise charging base and wireless switching, when needs charge for wireless switching, only need wireless switching be placed on charging base, the wireless charging transmitter module of charging base and the wireless charging receiver module of wireless switching just can form wireless charging network, are wireless switching charging.The utility model not only brings convenience to user, also extends the serviceable life of wireless switching, reduces disposable battery because producing and reclaiming the environmental pollution that may bring.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the structural representation of the utility model embodiment wireless charging type wireless switchgear;

Fig. 2 is the wireless charging schematic network structure one that the utility model embodiment wireless charging transmitter module and wireless charging receiver module are formed;

Fig. 3 is the wireless charging schematic network structure two that the utility model embodiment wireless charging transmitter module and wireless charging receiver module are formed.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, the wireless charging type wireless switchgear of the utility model embodiment, comprising: charging base 10 and wireless switching 20.

Wherein, charging base 10 comprises wireless charging transmitter module, is placed in charging base; Wireless charging transmitter module is connected with external ac power source.

Wireless switching 20 comprises wireless charging receiver module, rechargeable battery and Switch main body, and wireless charging receiver module is placed in wireless switching 20 corresponding with wireless charging transmitter module, and rechargeable battery is placed in wireless switching 20.It is that rechargeable battery charges that wireless charging transmitter module and wireless charging receiver module form wireless charging network; Wireless charging receiver module is connected with rechargeable battery, and the power input of rechargeable battery connecting valve body, for Switch main body is powered.

Wherein: wireless charging transmitter module and wireless charging receiver module can adopt the wireless charging technology such as existing magnetic inductive, magnetic resonance type or radio waves to realize.The wireless charging network that wireless charging transmitter module and wireless charging receiver module are formed can be the wireless charging networks such as magnetic inductive, magnetic resonance type, radio waves.

When needs charge for wireless switching 20, only need wireless switching 20 to be placed on charging base 10, it is that rechargeable battery carries out wireless charging that wireless charging transmitter module and wireless charging receiver module form wireless charging network by magnetic inductive, magnetic resonance type or radio waves.

The shape of charging base 10 and wireless switching 20 can be determined as the case may be, and does not limit and the circle shown in Fig. 1.

Preferably, as shown in Figure 1, the groove 12 corresponding with the bottom shape of wireless switching 20 can be set on charging base 10, when needs charge to wireless switching 20, directly wireless switching 20 be placed in groove 12, just can charge to it.When can prevent from like this touching wireless switching 20 because of carelessness, the wireless charging receiver module in wireless switching 20 and the wireless charging transmitter module in charging base offset the low problem of the charge efficiency that causes.

Preferably, also groove can be set on charging base 10, wireless switching 20 arranges the projection corresponding with groove, when needs charge to wireless switching 20, directly the protruding respective slot of wireless switching 20 is placed, to its charging, also can solve above-mentioned wireless switching 20 and the wireless charging transmitter module in charging base and offset the low problem of the charge efficiency that causes.

Preferably, also projection can be set on charging base 10, wireless switching 20 arrange the groove corresponding with projection, when needs charge to wireless switching 20, directly the groove respective protrusions of wireless switching 20 is placed, to its charging, to solve the problem.

In an embodiment of the present utility model, charging base 10 is provided with the first adsorption structure (not shown), wireless switching 20 is provided with the second adsorption structure (not shown), when wireless switching 20 charges, wireless switching 20 is fixed on charging base 10 by the absorption affinity produced between two adsorption structures.

As wireless switching 20 is adsorbed on charging base 10 by the mode of magnetic suck, as the first adsorption structure and the second adsorption structure can be magnet, or one of them is magnet, and another is magnetisable material, as materials such as iron, cobalt, nickel.

Particularly, can the first magnet (not shown in figure 1) be set on charging base 10, on wireless switching 20, the position of corresponding first magnet arranges the second magnet (not shown in figure 1), first magnet and the second magnet adsorb mutually, like this, wireless switching 20 can be adsorbed on charging base 10 by the first magnet and the second magnet, the problem that the charge efficiency preventing from wireless charging transmitter module and wireless charging receiver module from offseting bringing is low.

Preferably, the first magnet can be arranged in the groove of charging base 10, and the second magnet is arranged on position corresponding with the first magnet on wireless switching 20; Or the first magnet also can be arranged on the projection on charging base 10, and the second magnet is arranged on position corresponding with the first magnet on wireless switching 20.

First magnet and the second magnet not necessarily will be arranged simultaneously, can arrange separately, namely wireless switching 20 and charging base 10 can be magnets, while be can be got final product (as materials such as iron, cobalt, nickel) by the material of magnet absorption.

The wireless charging network that wireless charging transmitter module and wireless charging receiver module are formed can be realized by following scheme:

scheme one:

As shown in Figure 2, wireless charging transmitter module comprises: the first coil and the current oscillator be connected with the first coil, current oscillator is connected to external ac power source.

Wireless charging receiver module comprises: the second coil and the electric current follower be connected with the second coil, and the electromagnetic energy that the second coil can receive the first coil produces induction current.

When needs carry out wireless charging, wireless switching 20 is placed on charging base 10, the corresponding wireless charging transmitter module of wireless charging receiver module is placed, the electric current that current oscillator in charging base 10 changes is transported in the first coil, make the electromagnetic field that the first coil changes, the electromagnetic energy that second coil receives the first coil produces induction current, and induction current outputs in rechargeable battery and completes wireless charging by electric current follower.

scheme two:

As shown in Figure 3, wireless charging transmitter module comprises: wireless charging radiating circuit and the first coil electricity, the input end of wireless charging radiating circuit is connected with AC power, and the output terminal of wireless charging radiating circuit is electrically connected with the first coil, converts electrical energy into magnetic energy by the first coil.

Wireless charging receiver module comprises: wireless charging receiving circuit and the second coil, and the second coil receives the magnetic energy of the first coil, and by wireless charging receiving circuit, the magnetic energy that the second coil receives being converted to chargeable electric energy is rechargeable battery charging.

Concrete, the first coil is identical with the second coil resonance frequency, and the first coil and the second coil realize Energy Transfer by electromagentic resonance mode.

Concrete, wireless charging radiating circuit and wireless charging receiving circuit can adopt prior art to realize above-mentioned functions.

Should be understood that, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to the utility model claims.

Claims (10)

1. a wireless charging type wireless switchgear, is characterized in that, comprising:

Charging base, is provided with wireless charging transmitter module in it, wireless charging transmitter module is connected with external ac power source;

Wireless switching, is provided with wireless charging receiver module, rechargeable battery and Switch main body in it, wireless charging receiver module and wireless charging transmitter module form wireless charging network, is rechargeable battery charging; The power input of rechargeable battery connecting valve body, for Switch main body is powered.

2. wireless charging type wireless switchgear according to claim 1, is characterized in that, the wireless charging network that wireless charging transmitter module and wireless charging receiver module are formed is magnetic inductive, magnetic resonance type or radio waves wireless charging network.

3. wireless charging type wireless switchgear according to claim 1, is characterized in that, charging base is provided with the groove corresponding with the bottom shape of wireless switching.

4. wireless charging type wireless switchgear according to claim 1, it is characterized in that, charging base is provided with groove, and wireless switching is provided with the projection corresponding with this groove, and when wireless switching charges, this projection is placed in described groove.

5. wireless charging type wireless switchgear according to claim 1, it is characterized in that, charging base is provided with projection, and wireless switching is provided with the groove corresponding with this projection, and when wireless switching charges, this projection is placed in described groove.

6. the wireless charging type wireless switchgear according to claim 1-5 any one, it is characterized in that, charging base is provided with the first adsorption structure, wireless switching is provided with the second adsorption structure, when wireless switching charges, wireless switching is fixed on charging base by the absorption affinity produced between two adsorption structures.

7. wireless charging type wireless switchgear according to claim 6, is characterized in that, the first adsorption structure and the second adsorption structure are magnet, or one of them is magnet, and another is magnetisable material.

8. wireless charging type wireless switchgear according to claim 1, is characterized in that, the current oscillator that wireless charging transmitter module comprises the first coil and is connected with this first coil, and current oscillator is connected with external ac power source;

The electric current follower that wireless charging receiver module comprises the second coil and is connected with this second coil, the electromagnetic energy that the second coil receives the first coil produces induction current.

9. wireless charging type wireless switchgear according to claim 1, it is characterized in that, wireless charging transmitter module comprises wireless charging radiating circuit and the first coil, the input end of wireless charging radiating circuit is connected with external ac power source, the output terminal of wireless charging radiating circuit is electrically connected with the first coil, converts electrical energy into magnetic energy by the first coil;

Wireless charging receiver module comprises wireless charging receiving circuit and the second coil, and the second coil receives the magnetic energy of the first coil, and the magnetic energy that the second coil receives is converted to electric energy by wireless charging receiving circuit, is rechargeable battery charging.

10. wireless charging type wireless switchgear according to claim 9, is characterized in that, the first coil is identical with the second coil resonance frequency, and the first coil and the second coil realize Energy Transfer by electromagentic resonance mode.