CN103475053B - Wireless charging device - Google Patents

Abstract

The present invention relates to a kind of wireless charging device, comprise power supply main body and at least one adaptor, power supply main body comprises supportive body and is arranged on two current electrodes on supportive body surface, has Insulating gap between electrode; Adaptor is provided with at least two conductive contacts; The edge beeline of single conductive contact is greater than the size of Insulating gap, and the minimum range between two adjacent conductive contact edges is greater than the ultimate range at the edge of single current electrode.The present invention be provided with power body portion from adaptor, adaptor is provided with the conductive contact contacting with current electrode and conduct electricity, only adaptor need be inserted in its power supply interface during charging equipment charging, to be contacted with current electrode by the conductive contact on adaptor and namely can be charging equipment and power, avoid in prior art the inconvenience needing to use attaching plug to bring, and need the inconvenience of setting up conductive contact on charging equipment, there is easy to use, that versatility is good advantage.

Description

Wireless charging device

Technical field

The present invention relates to charging device, particularly relate to a kind of wireless charging device.

Background technology

Along with the development of science and technology, increasing power consumption equipment uses in the life of people.When using these power consumption equipments, normally directly first-class by power plug, directly access power supply is that power consumption equipment is powered, or is the powered battery of power consumption equipment.But increasing along with power consumption equipment, attaching plug also can increase thereupon.And different power consumption equipments uses different outlets usually, need the adapter being equipped with different electrical power plug, thus, make user have a lot of power supply adaptor, be unfavorable for energy-conserving and environment-protective, cause the great wasting of resources.

In addition, needs carry out multiple power consumption equipment charge simultaneously time, multiple power supply adaptor will be used simultaneously, add the use of plate, and the connecting line of power supply adaptor is easy to be wound around, cause user use inconvenience.

Summary of the invention

The technical problem to be solved in the present invention is, provides a kind of easy to use, wireless charging device that versatility is good.

The technical solution adopted for the present invention to solve the technical problems is: provide a kind of wireless charging device, comprise the adaptor for charging equipment grafting of power supply main body and the separable setting of at least one and described power supply main body, described power supply main body comprises supportive body and is arranged at least two current electrodes for out-put supply on described supportive body surface, has Insulating gap between described current electrode; Described adaptor is provided with and conducts electricity, being supplied by the power supply that described current electrode exports at least two conductive contacts of described charging equipment for contacting with described current electrode;

The edge beeline of single described conductive contact is greater than the size of described Insulating gap, and the minimum range between two adjacent described conductive contact edges is greater than the ultimate range at the edge of single described current electrode.

In wireless charging device of the present invention, described supportive body comprises support baseboard and is connected to the support side plate on described support baseboard; Described current electrode is arranged on described support side plate and connects on the end surface of described support baseboard, or/and be arranged on described support baseboard on the surface of described support side plate and near described support side plate.

In wireless charging device of the present invention, described support side plate is connected to the side of described support baseboard; Wherein,

The relatively described support baseboard of described support side plate is vertical or tilt and be fixedly connected on described support baseboard; Or,

Described support side plate is movably connected on described support baseboard with one end, described support side plate with its one end connecting described support baseboard for the relatively described support baseboard of axle is rotatable.

In wireless charging device of the present invention, described support side plate is provided with movable support frame, described movable support frame is movably connected on the surface of described support side plate described support baseboard dorsad with one end, makes the relatively described support side plate of described movable support frame can folding.

In wireless charging device of the present invention, the surface of the described support side plate of described support baseboard is provided with for the accommodating groove of described movable support frame dorsad.

In wireless charging device of the present invention, described support side plate is connected on the middle position of described support baseboard; Wherein,

The relatively described support baseboard of described support side plate is vertical and be fixedly connected on described support baseboard; Or,

Described support side plate is movably connected on described support baseboard with one end, described support side plate with its one end connecting described support baseboard for the relatively described support baseboard of axle is rotatable.

In wireless charging device of the present invention, described support side plate is also provided with the fixed structure for fixing described charging equipment; Described fixed structure comprises corresponding described charging equipment and is slidably arranged at least two fixture blocks on described support side plate surface, and described at least two fixture blocks are positioned at least both sides on described support side plate surface.

In wireless charging device of the present invention, described power supply main body also comprises charge power supply, and described charge power supply comprises the power supply circuits be electrically connected with described current electrode and the power supply adaptor be electrically connected with described power supply circuits; Wherein,

Described power supply circuits are arranged on described supportive body, and described power supply adaptor is separated setting with described power supply circuits, and are electrically connected with described power supply circuits by wire; Or,

Described power supply circuits are separated setting with described supportive body; Described power supply circuits and described power supply adaptor are arranged in same housing, and are electrically connected with described current electrode by wire; Or described power supply circuits and described power supply adaptor are arranged in different housings, and described power supply adaptor is electrically connected with described power supply circuits by wire, and described power supply circuits are electrically connected with described current electrode by wire.

In wireless charging device of the present invention, described adaptor comprises the adapter for being placed on described supportive body and is connected to described adapter, for being linked into the adapter in described charging equipment; Described adapter and described current electrode insulate; Described conductive contact is electrically connected with described adapter and is arranged on described adapter, and it is one or more to expose in the side of described adapter and bottom surface.

In wireless charging device of the present invention, described current electrode is regular shape or irregularly shaped.

Wireless charging device of the present invention, be provided with power body portion from adaptor, adaptor is provided with the conductive contact contacting with current electrode and conduct electricity, only adaptor need be inserted in its power supply interface during charging equipment charging, to be contacted with current electrode by the conductive contact on adaptor and namely can be charging equipment and power, avoid in prior art the inconvenience needing to use attaching plug to bring, and need the inconvenience of setting up conductive contact on charging equipment, there is easy to use, that versatility is good advantage.

In addition, by arranging multiple current electrode and adaptor, achieving the function that this wireless charging device is powered for multiple charging equipment simultaneously, avoiding the trouble that prior art needs to use multiple power supply adaptor.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:

Fig. 1 is the structural representation of the wireless charging device of first embodiment of the invention;

Fig. 2 is the structure for amplifying schematic diagram of part A in Fig. 1;

Fig. 3 is the structural representation of adaptor in Fig. 1;

Fig. 4 is the structural representation of the wireless charging device of second embodiment of the invention;

Fig. 5 is the structural representation of the wireless charging device of third embodiment of the invention;

Fig. 6 is the structural representation of the wireless charging device of fourth embodiment of the invention;

Fig. 7 is the rearview of wireless charging device shown in Fig. 6;

Fig. 8 is the structural representation of the wireless charging device of fifth embodiment of the invention;

Fig. 9 is the structure for amplifying schematic diagram of part B in Fig. 8.

Embodiment

In order to there be understanding clearly to technical characteristic of the present invention, object and effect, now contrast accompanying drawing and describe the specific embodiment of the present invention in detail.

As shown in Figure 1, the wireless charging device of first embodiment of the invention, comprises power supply main body and at least one adaptor 40.Power supply main body is used for powering for charging equipment; Adaptor 40 and the separable setting of power supply main body, for charging equipment grafting, and adaptor 40 is provided with at least two conductive contacts 50, for being electrically connected with power supply main body.This wireless charging device is that charging equipment is when powering, adaptor 40 is plugged on charging equipment, then be placed in power supply main body, the conductive contact 50 on adaptor 40 and power supply body contact, make power supply self-powered main body be input on charging equipment by adaptor 40.

As shown in Figure 1, 2, power supply main body comprises supportive body 10 and is arranged at least two current electrodes 11 on supportive body 10 surface, and current electrode 11 is for out-put supply.There is between current electrode 11 Insulating gap 110, to be separated by multiple current electrode 11, avoid the Contact of current electrode 11 to cause short circuit etc.The shape of current electrode 11 can be regular shape, and as rectangle, circle, trapezoidal etc., certainly, its shape also can be irregularly shaped; Multiple current electrode 11 can equidistantly or Unequal distance row be located on supportive body 10.

The insulating supporting main body that supportive body 10 is made for insulating material.Supportive body 10 comprises support baseboard 12 and is connected to the support side plate 13 on support baseboard 12; Current electrode 11 can be arranged on support side plate 13 and connect on the end surface of support baseboard 12, or is arranged on support baseboard 12 on the surface of support side plate 13 and near support side plate 13.Certainly, also current electrode 11 can be all provided with on the described position of support side plate 13 and support baseboard 12.Preferably, the conveniently layout of current electrode 11, multiple current electrode 11 adopts equidistant arrangement, and shape is preferably regular shape such as rectangle arranges.

Conductive contact 50 on adaptor 40, is mainly used in contacting with current electrode 11 conducting electricity, preferably arranges two conductive contacts 50.The shape of conductive contact 50 does not limit, and can be regular shape as rectangle, circle, ellipse etc., or irregularly shaped.The edge beeline of single conductive contact 50 is greater than the size of the Insulating gap 110 between current electrode 11, thus avoid that conductive contact 50 is whole falls into Insulating gap 110, ensure that when adaptor 40 is placed on supportive body 10, conductive contact 50 contacts with current electrode 11 all the time and conducts electricity.Simultaneously, minimum range between two adjacent conductive contact 50 edges is greater than the ultimate range at the edge of single current electrode 11, thus ensure that two adjacent conductive contacts 50 can not contact with same current electrode 11 simultaneously and conduct electricity, namely, ensure that different with two all the time current electrode 11 of two adjacent conductive contacts 50 contacts to conduct electricity, thus ensure that two current electrodes 11 can arrange different polarity, form current supply circuit.During use, a conductive contact 50 on adaptor 40 can cross over Insulating gap 110 and simultaneously the current electrode 11 adjacent with two contact and conduct electricity, other current electrodes 11 outside another conductive contact 50 current electrode 11 adjacent with these two contact and conduct electricity.

As shown in Figure 3, this adaptor 40 can comprise adapter 41 and be connected to the adapter 42 on adapter 41.Adapter 41 is for being placed on supportive body 10, and adapter 40 is for being linked in charging equipment; And adapter 41 and current electrode 11 insulate, and conductive contact 50 is arranged on adapter 41, and are electrically connected with adapter 42, to be input in charging equipment by adapter by power supply.Wherein, conductive contact 50 exposes adapter 41 surface, conducts electricity can contact with current electrode 11, and the surface that this conductive contact 50 exposes adapter 41 comprises in the side of adapter 41 and bottom surface one or more.Be appreciated that when to expose in the side of adapter 41 and bottom surface two or more for conductive contact 50, conductive contact 50 also can run through adapter 41 to another side or bottom surface (or side) from wherein a side (or bottom surface).

Usually, look equipment to be charged is all provided with the charging inlet for charging, therefore adapter 42 specifically can be arranged according to the charging inlet of charging equipment.The setting of multiple adaptor 40, for the grafting of multiple charging equipment, realizes this wireless charging device simultaneously to the function that multiple charging equipment is powered.In addition, adaptor 40 can when meet have adapter 40, conductive contact 50 etc. to arrange, can small size arrange, reduce this adaptor 40 overall volume, thus can reduce adaptor 40 on supportive body 10 shared by space, also can be beneficial to storage.

This power supply main body also comprises charge power supply (not shown), and charge power supply comprises the power supply circuits be electrically connected with current electrode 11 and the power supply adaptor be electrically connected with power supply circuits.Power supply adaptor is used for external power supply, these power supply circuits can comprise testing circuit, control circuit etc., it is according to different charging equipment, external power supply is converted to corresponding power and is delivered to current electrode 11, exports charging equipment to by current electrode 11 and adaptor 40.

Wherein, power supply circuits can be arranged on supportive body 10 or with supportive body 10 and be separated setting.When power supply circuits are arranged on supportive body 10, power supply adaptor is separated with power supply circuits, and is electrically connected with power supply circuits by wire.When main body of powering to be separated with supportive body 10 arrange time, be beneficial to supportive body 10 slimming design, and when supportive body 10 suffers the circuit that can not affect this wireless charging device when a bit damaging, the normal use of this wireless charging device still can be ensured, reduce maintenance capacity and replacement frequency.Be separated these power supply circuits of setting with supportive body 10, can be arranged in same housing with power supply adaptor, and be electrically connected with current electrode 11 by wire; Or be arranged in different housings with power supply adaptor, power supply adaptor is electrically connected with power supply circuits by wire, and power supply circuits are electrically connected with current electrode 11 by wire.

In the present embodiment, support side plate 13 is connected to the side of support baseboard 12; Current electrode 11 is arranged on position support baseboard 12 towards the surface of support side plate 13 or support side plate 13 towards the surface of support baseboard 12, and conductive contact 50 exposes in a side of adapter 41 or a side with on bottom surface or relative two sides and bottom surface.Wherein, as shown in Figure 1, support side plate 13 relative support base plate 12 is vertical and be fixedly connected on support baseboard 12, thus supportive body 10 is L-shaped.When the supportive body 10 of this L shape uses, be vertically placed on platform by support baseboard 12 opposed platforms; Also tiltable is placed on platform, and support side plate 13 is then resisted against on the sidewall of platform, or place after the support side plate 13 holding articles for support side plate 13 against; Certainly, be also placed on platform by support side plate 13 parallel platform.Charging equipment grafting is placed on after adaptor 40 on supportive body 10, and charging equipment is placed on support baseboard 12 by one side, and rear surface is resisted against in support side plate 13 and is placed on supportive body 10 for stable.The modes of emplacement of supportive body 10 can not limit, as long as make the conductive contact 50 on adaptor 40 not depart from the contact with current electrode 11.

Understandably, support side plate 13 also can tilt and be fixedly connected on support baseboard 12 by relative support base plate 12, and the angle between support side plate 13 and support baseboard 12 is an obtuse angle, the support baseboard 12 of this kind of syndeton and support side plate 13, charging equipment can be made to place more stable, not easily topple over.During use, be resisted against on the sidewall of platform by support side plate 13, or supportive body 10 is placed on platform by placement holding articles after support side plate 13.Support side plate 13 also can be movably connected on support baseboard 12 in one end, and support side plate 13 can its one end connecting support baseboard 12 be that axle relative support base plate 12 rotates, and can tilt by angle of inclination rotational support side plate 13 relative support base plate 12 as required.Movable connection method can adopt the modes such as hinged, rotating shaft connection.

When this wireless charging device uses, adaptor 40 is plugged on charging equipment, aim to contact by conductive contact 50 and current electrode 11 and conduct electricity and the adaptor 40 with charging equipment is placed on supportive body 10, be specifically placed on support side plate 13 and support baseboard 12 angle.Usually, the charging inlet of charging equipment as mobile phone is arranged on its side, and after therefore placing, the rear surface of mobile phone or front surface (having display screen one side) are resisted against in support side plate 13, and the side of mobile phone is then towards support baseboard 12.After charge power supply external power supply, namely can be charging equipment and power.

As shown in Figure 4, the wireless charging device of second embodiment of the invention, comprises power supply main body and at least one adaptor 40, and the structures such as the supportive body 10 of this power supply main body and adaptor 40 are with reference to described in above-described embodiment.And different above-mentioned first embodiment of this embodiment: current electrode 11 is arranged on support baseboard 12 towards the surface of support side plate 13 and support side plate 13 towards on the surface of support baseboard 12.In this embodiment, the current electrode 11 in support side plate 13 and current electrode 11 one_to_one corresponding on support baseboard 12, one to one current electrode 11 tool identical polar; Conductive contact 50 exposes in a side of adapter 41 or a side with on bottom surface or relative two sides and bottom surface.During use, each conductive contact 50 can contact with the current electrode 11 in support side plate 13 to conduct electricity or contact with current electrode 11 corresponding on support side plate 13 and support baseboard 12 simultaneously and conduct electricity.

As shown in Figure 5, the wireless charging device of third embodiment of the invention, comprises power supply main body and at least one adaptor 40, and the structures such as the supportive body 10 of this power supply main body and adaptor 40 are with reference to described in the first embodiment.And current electrode 11 is arranged on support baseboard 12 towards the surface of support side plate 13 and support side plate 13 towards on the surface of support baseboard 12; And different above-mentioned second embodiment of this embodiment: the current electrode 11 in support side plate 13 and current electrode 11 interval on support baseboard 12; Conductive contact 50 can comprise the first conductive contact 51 and the second conductive contact 52, current electrode 11 on the corresponding support baseboard 12 of first conductive contact 51 and expose in the bottom surface of adapter 41, the current electrode 11 in the corresponding support side plate 13 of the second conductive contact 52 and exposing at least one side of adapter.During use, the first conductive contact 51 contacts with the current electrode 11 on support baseboard 12 and conducts electricity, and the second conductive contact 52 contacts with the current electrode 11 in support side plate 13 and conducts electricity.

As shown in Figure 6,7, the wireless charging device of fourth embodiment of the invention, comprises power supply main body and at least one adaptor 40.Supportive body 10, the structure such as current electrode 11 and adaptor 40 of this power supply main body can refer to described in the above-mentioned first to the 3rd embodiment.Different above-mentioned first to the 3rd embodiment of this embodiment: be provided with movable support frame 20 on supportive body 10.

Movable support frame 20 is arranged in support side plate 13, and movable support frame 20 is movably connected on the surface of support side plate 13 support baseboard 12 dorsad with one end, makes movable support frame 20 relative support side plate 13 can folding.When support side plate 13 relative support base plate 12 tilt or supportive body 10 opposed platforms slant setting time, this movable support frame 20 can rotate by relative support side plate 13, and form required angle between support side plate 13 and be supported on platform, making supportive body 10 stable placement on platform.

Movable support frame 20 can relative support side plate 13 projection thereon.In order to keep the globality on support side plate 13 surface, groove 130 can be provided with on the surface of the support side plate 13 of support baseboard 12 dorsad, accommodating for movable support frame 20.When not needing to use movable support frame 20, movable support frame 20 can be contained in groove 130.

Other structures of this embodiment can refer to above-described embodiment, do not repeat them here.

As shown in Figure 8,9, the wireless charging device of fifth embodiment of the invention, comprises power supply main body and at least one adaptor 40.Power supply main body is used for powering for charging equipment; Adaptor 40 and the separable setting of power supply main body, for charging equipment grafting, and adaptor 40 is provided with at least two conductive contacts 50, for being electrically connected with power supply main body.This wireless charging device is that charging equipment is when powering, adaptor 40 is plugged on charging equipment, then be placed in power supply main body, the conductive contact 50 on adaptor 40 and power supply body contact, make power supply self-powered main body be input on charging equipment by adaptor 40.

Power supply main body comprises supportive body 30 and is arranged at least two current electrodes 31 on supportive body 30 surface, and current electrode 31 is for out-put supply.There is between current electrode 31 Insulating gap 310, to be separated by multiple current electrode 31, avoid the Contact of current electrode 31 to cause short circuit etc.The shape of current electrode 31 can be regular shape, and as rectangle, circle, trapezoidal etc., certainly, its shape also can be irregularly shaped; Multiple current electrode 31 can equidistantly or Unequal distance row be located on supportive body 30.

The insulating supporting main body 30 that supportive body 30 is made for insulating material.Supportive body 30 comprises support baseboard 32 and is connected to the support side plate 33 on support baseboard 32; Current electrode 31 can be arranged on support side plate 33 and connect on the end surface of support baseboard 32, or is arranged on support baseboard 32 on the surface of support side plate 33 and near support side plate 33.Certainly, also current electrode 31 can be all provided with on the described position of support side plate 33 and support baseboard 32.Preferably, the conveniently layout of current electrode 31, multiple current electrode 31 adopts equidistant arrangement, and shape is preferably regular shape such as rectangle arranges.

Conductive contact 50 on adaptor 40, is mainly used in contacting with current electrode 31 conducting electricity, preferably arranges two conductive contacts 50.The shape of conductive contact 50 does not limit, and can be regular shape as rectangle, circle, ellipse etc., or irregularly shaped.The edge beeline of single conductive contact 50 is greater than the size of the Insulating gap 310 between current electrode 31, thus avoid that conductive contact 50 is whole falls into Insulating gap 310, ensure that when adaptor 40 is placed on supportive body 30, conductive contact 50 contacts with current electrode 31 all the time and conducts electricity.Simultaneously, minimum range between two adjacent conductive contact 50 edges is greater than the ultimate range at the edge of single current electrode 31, thus ensure that two adjacent conductive contacts 50 can not contact with same current electrode 31 simultaneously and conduct electricity, namely, ensure that different with two all the time current electrode 31 of two adjacent conductive contacts 50 contacts to conduct electricity, thus ensure that two current electrodes 31 can arrange different polarity, form current supply circuit.

Arranging etc. of the structure of this adaptor 40 and conductive contact 50 can refer to described in first to fourth embodiment.The setting of multiple adaptor 40, for the grafting of multiple charging equipment, realizes this wireless charging device simultaneously to the function that multiple charging equipment is powered.

This embodiment and above-mentioned first to fourth embodiment unlike: support side plate 33 is connected on the middle position of support baseboard 32, like this, make the placement of supportive body 30 more stable, do not need movable support frame as described in the second embodiment or other supporting constructions to support.In addition, current electrode 31 can be arranged on support side plate 33 and to connect in relative two surfaces, one end of support baseboard 32 surface or two on the surface; Or, be arranged on towards the support baseboard 32 of support side plate 33 on the surface and near support side plate 33, the position of current electrode 31 on support baseboard 32 comprises respectively towards the one or both sides in the surperficial both sides of support baseboard 32 on this two surface of support side plate 33; Certainly, current electrode 31 also can all be provided with current electrode 31 on the described position of support side plate 33 and support baseboard 32.

Preferably, in embodiment as shown in Figure 8, support side plate 33 is movably connected on support baseboard 32 with one end, support side plate 33 with its connect support baseboard 32 one end for axle relative support base plate 32 rotatable.During use, rotational support side plate 33 makes its relative support base plate 32 tilt, and is then obtuse angle, charging equipment can be made like this to place more stable, not easily topple at the angle of the support side plate 33 and support baseboard 32 that will place charging equipment.Movable connection method can adopt the modes such as hinged, rotating shaft connection

Understandably, support side plate 33 also can vertically be fixedly connected on support baseboard 32 by relative support base plate 32, thus supportive body 30 is in inverted T-shaped.The supportive body 30 of this T-shaped, can place charging equipment in relative two surfaces of support side plate 33 simultaneously.

In the various embodiments described above, support side plate 13,33 also can be provided with fixed structure, for fixing charging equipment, the displacement such as prevent that charging equipment from toppling in charging process, causes conductive contact 50 to depart from the contact with current electrode 11,31.This fixed structure can comprise corresponding charging equipment and slidably be arranged at least two fixture blocks on support side plate 13,33 surface, described support side plate 13,33 surface for be provided with the surface of current electrode 11,31 or support side plate 13,33 towards the surface of support baseboard 12,32 being provided with current electrode 11,31.Fixture block is slidably arranged by establishing chute and fixture block to match incompatible realization in support side plate 13,33 in support side plate 13,33.

The above is only the preferred embodiment of the present invention, protection scope of the present invention be not only confined to above-described embodiment, and all technical schemes belonged under thinking of the present invention all belong to protection scope of the present invention.It should be pointed out that for those skilled in the art, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (8)

1. a wireless charging device, it is characterized in that, comprise the adaptor (40) for charging equipment grafting of power supply main body and the separable setting of at least one and described power supply main body, described power supply main body comprises supportive body (10,30) and is arranged at least two current electrodes for out-put supply (11,31) on described supportive body (10,30) surface, has Insulating gap (110,310) between described current electrode (11,31); Described adaptor (40) is provided with and conducts electricity, supplied by the power supply that described current electrode (11,31) exports at least two conductive contacts (50) of described charging equipment for contacting with described current electrode (11,31); Described power supply main body also comprises charge power supply, and described charge power supply comprises the power supply circuits be electrically connected with described current electrode (11,31) and the power supply adaptor be electrically connected with described power supply circuits;

The edge beeline of single described conductive contact (50) is greater than the size of described Insulating gap (110,310), and the minimum range between two adjacent described conductive contact (50) edges is greater than the ultimate range at the edge of single described current electrode (11,31);

Described supportive body (10,30) comprises support baseboard (12,32) and is connected to the support side plate (13,33) on described support baseboard (12,32); Described current electrode (11,31) is arranged on described support side plate (13,33) and connects on the end surface of described support baseboard (12,32), or/and be arranged on described support baseboard (12,32) on the surface of described support side plate (13,33) and near described support side plate (13,33);

Described support side plate (13) is connected to the side of described support baseboard (12); Wherein,

The relatively described support baseboard (12) of described support side plate (13) is vertical or tilt and be fixedly connected on described support baseboard (12); Or,

Described support side plate (13) is movably connected on described support baseboard (12) with one end, and described support side plate (13) is that the relatively described support baseboard (12) of axle is rotatable with one end that it connects described support baseboard (12).

2. wireless charging device according to claim 1, it is characterized in that, described support side plate (13) is provided with movable support frame (20), described movable support frame (20) is movably connected on the surface of described support side plate (13) described support baseboard (12) dorsad with one end, makes the relatively described support side plate (13) of described movable support frame (20) can folding.

3. wireless charging device according to claim 2, it is characterized in that, the surface of the described support side plate (13) of described support baseboard (12) is provided with for the accommodating groove (130) of described movable support frame (20) dorsad.

4. wireless charging device according to claim 1, is further characterized in that, or described support side plate (33) is connected on the middle position of described support baseboard (32); Wherein,

The relatively described support baseboard (32) of described support side plate (33) is vertical and be fixedly connected on described support baseboard (32); Or,

Described support side plate (33) is movably connected on described support baseboard (32) with one end, and described support side plate (33) is that the relatively described support baseboard (32) of axle is rotatable with one end that it connects described support baseboard (32).

5. wireless charging device according to claim 1, is characterized in that, described support side plate (13,33) is also provided with the fixed structure for fixing described charging equipment; Described fixed structure comprises corresponding described charging equipment and is slidably arranged at least two fixture blocks on described support side plate (13,33) surface.

6. the wireless charging device according to any one of claim 1-5, it is characterized in that, described power supply circuits are arranged on described supportive body (10,30), and described power supply adaptor is separated setting with described power supply circuits, and is electrically connected with described power supply circuits by wire; Or,

Described power supply circuits are separated with described supportive body (10,30) and arrange; Described power supply circuits and described power supply adaptor are arranged in same housing, and are electrically connected with described current electrode (11,31) by wire; Or described power supply circuits and described power supply adaptor are arranged in different housings, and described power supply adaptor is electrically connected with described power supply circuits by wire, described power supply circuits are electrically connected with described current electrode (11,31) by wire.

7. the wireless charging device according to any one of claim 1-5, it is characterized in that, described adaptor (40) comprises the adapter (41) for being placed on described supportive body (10,30) and is connected to described adapter (41), for being linked into the adapter (42) in described charging equipment; Described adapter (41) and described current electrode (11,31) insulate; Described conductive contact (50) is electrically connected with described adapter (42) and is arranged on described adapter (41), and on to expose in the side and bottom surface being arranged on described adapter (41) one or more.

8. the wireless charging device according to any one of claim 1-5, is characterized in that, described current electrode (11,31) is in regular shape or irregularly shaped.