CN212210516U - Charging platform - Google Patents

Abstract

The charging platform can form a holding space so that the electronic equipment can be used on the wall, the charging platform can respectively or simultaneously supply power to the lamp and the mobile phone, and when the mobile phone is supplied with power, the magnetic attraction strength can be weakened so that the mobile phone can normally work.

Description

Charging platform

Technical Field

The utility model relates to the electric energy transmission field especially involves charging platform and application thereof.

Background

Wireless charging is the hot direction of development and research in the field of electric energy transmission at present. The charging mode by using wireless charging becomes portable, so the charging device is popular with consumers.

Lamps and lanterns are the common instrument in daily life, and it can convert electric energy into light energy, is suitable for providing illumination in dark environment. Portable worklights are one type of light fixture that can be used portably. The user can carry the portable work light to various environment uses based on the user demand, say the environment such as open air, garage. The endurance of the portable work light is an important property, and a great trouble of using the portable work light by a user is that the portable work light cannot work due to lack of energy.

The advent of portable external power storage devices such as a power bank has enabled the duration of a portable worklight to be extended. At present, the treasured that charges that can be applied to lamps and lanterns has appeared in the market to, for convenient use, wireless treasured that charges has also appeared.

Be applied to wireless treasured that charges of lamps and lanterns and be configured with magnet usually to fix the lamps and lanterns at wireless treasured that charges through the mode of magnetism, in order to be favorable to keeping the alignment between wireless treasured and the lamps and lanterns that charges, thereby be favorable to the electric energy transmission between wireless treasured and the lamps and lanterns that charges. Further, in order to cooperate the service environment of portable work light, wireless treasured that charges can also be hung in preset position so that lamps and lanterns can be kept at the height that expects, explains with the garage as an example, when the user of operation needs to obtain illumination and lamps and lanterns itself electric energy is not enough in the garage, the user can hang wireless treasured that charges in preset position, then installs lamps and lanterns in wireless treasured that charges, and lamps and lanterns can also top-down radiation light to the position that expects simultaneously. It is worth noting that in the process, the lamp may be in a vertical state, and the magnetic attraction between the lamp and the wireless charging treasure needs to overcome the gravity of the lamp, which undoubtedly puts requirements on the strength of the magnetic attraction between the lamp and the wireless charging treasure.

Furthermore, besides the wireless lamp, there are many other devices capable of performing wireless charging, such as mobile phones, however, the wireless charger applied to the lamp has a single application scene, and cannot be applied to complex electronic devices for a while. The reason is that once the wireless power bank applied to the lamp needs to provide power for the complex electronic device, many problems will be encountered, for example, the magnetic element of the wireless power bank may interfere with the normal operation of the elements in the electronic device.

However, contrary to the above, the application of the lamp itself requires that the wireless power bank provides a large magnetic force so that the lamp can be firmly fixed with the wireless power bank, and the wireless power bank needs to provide a sufficient magnetic force regardless of whether the lamp is in a horizontal position or a vertical position. Due to the limitation of the factors, the existing lamp charger can only simply meet the charging requirement of the lamp, and is difficult to meet the charging requirements of other charging equipment, especially mobile phones. The user of operation in garage or outdoor environment probably needs to carry two at least treasureds that charge, and one is used for supplying power for lamps and lanterns, and another charges treasured and is used for supplying power for electronic equipment such as cell-phone, and this is not portable to the user.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a charging platform, wherein charging platform can use under multiple scene, for example can charge for lamps and lanterns, also can supply power for electronic equipment such as cell-phone.

Another object of the present invention is to provide a charging platform, wherein the charging platform can supply power to the mobile phone in a horizontal placement state.

Another object of the present invention is to provide a charging platform, wherein the charging platform can supply power to the mobile phone in a vertical state.

Another object of the present invention is to provide a charging platform, wherein the charging platform can form a platform for placing a mobile phone in a vertical state, and the mobile phone can be aligned to the charging platform to be powered.

Another object of the present invention is to provide a charging platform, wherein the charging platform can charge for the mobile phone under vertical state, also can charge for lamps and lanterns to when needs charge for the mobile phone, the platform can form.

Another object of the present invention is to provide a charging platform, wherein the mobile phone and the lamp can be horizontally placed on the charging platform.

Another object of the present invention is to provide a charging platform, wherein the charging platform is provided with an installation magnet, the installation magnet is used for fixing the lamp to be charged and the charging platform is provided with a fixing member, and when the charging platform is applied to the electronic device such as a mobile phone, the installation magnet is used for fixing the lamp to be charged and the normal operation of the electronic device such as a mobile phone is not interfered.

Another object of the present invention is to provide a charging platform, wherein when the lamp is placed the charging platform is charged, the magnetic attraction piece can provide enough magnetic attraction force.

Another object of the present invention is to provide a charging platform, wherein when electronic equipment such as cell-phone is placed charging platform uses, the magnetism of piece is inhaled to installation magnetism is inhaled the effect and can be weakened so that electronic equipment such as cell-phone can normally work the utility model discloses an another object of the present invention is to provide a charging platform, wherein when electronic equipment such as cell-phone is placed charging platform uses, the piece is inhaled to installation magnetism can stop producing magnetic field so that electronic equipment such as cell-phone normally works.

Another object of the present invention is to provide a charging platform, wherein when electronic devices such as mobile phone are placed the charging platform is used, the magnetic field generated by the magnetic attraction piece can be shielded to make the electronic devices such as mobile phone work normally.

Another object of the present invention is to provide a charging platform, wherein the charging platform is provided with a magnetic attraction part, wherein the magnetic attraction part is adapted to the fixation of the charging platform itself, when electronic devices such as mobile phones are placed the charging platform is used, the magnetic attraction part can be weakened to enable the electronic devices such as mobile phones to work normally. According to an aspect of the utility model provides a charging platform is suitable for the power supply for an electrical equipment, wherein this electrical equipment optionally is a wireless rechargeable lamps and lanterns or an electronic equipment, wherein this lamps and lanterns are provided with at least one magnetism and inhale the fitting piece, wherein charging platform includes:

a charging platform main body;

a transmitting coil, wherein the transmitting coil is conductively connected to the charging platform body to be powered by the charging platform body; and

a magnetic unit, wherein the magnetic unit is disposed on the charging platform body and keeps a predetermined distance from the transmitting coil, at least part of the magnetic attraction unit is suitable for being mutually magnetically attracted with the magnetic attraction matching piece of the lamp to position the lamp to be aligned with the sending coil, wherein the charging platform has a lamp use state and an electronic device use state, and in the lamp use state, the lamp is suitable for being positioned on a bearing surface of the charging platform through at least part of the magnetic attraction unit and the magnetic attraction action of the magnetic attraction matching piece and is aligned to the sending coil to be powered, in the using state of the electronic equipment, the magnetic attraction effect of the magnetic attraction unit is weakened to reduce the influence on electronic components in the power demand equipment, and the power demand equipment is suitable to be placed on the bearing surface of the charging platform to be powered.

According to an embodiment of the present invention, if the power demanding device is selected as the electronic device, the electronic device is a wireless charging device and is adapted to be placed on the carrying surface in such a way as to be aligned with the transmitting coil to be powered when the charging platform is in the electronic device use state.

According to the utility model discloses an embodiment, magnetism is inhaled the unit and is inhaled the piece including at least an installation magnetism, wherein installation magnetism is inhaled the piece by movably set up in the charging platform main part and be suitable for and inhale the mutual magnetism of fitting piece with this magnetism, and work as installation magnetism is inhaled the piece operated with the activity extremely with charging platform the distance of loading end enlarges, charging platform certainly lamps and lanterns user state orientation electronic equipment user state changes.

According to the utility model discloses an embodiment, the unit is inhaled including an at least installation magnetism, installation magnetism inhale the piece set up in the charging platform main part and be suitable for and inhale the mutual magnetism of fitting piece with this magnetism and inhale, charging platform further includes a control, installation magnetism inhale the piece by controllable connection in the control, wherein installation magnetism inhales the piece and has a high magnetic state and a low magnetic state high magnetic state the magnetic field strength of installation magnetism inhale the piece is greater than the low magnetic state the magnetic field strength of piece is inhaled to the installation magnetism, and works as installation magnetism inhale the piece quilt the control is from high magnetic state transform is the low magnetic state, charging platform certainly lamps and lanterns user state transform is the electronic equipment user state transform.

According to the utility model discloses an embodiment, magnetism is inhaled the unit and is inhaled the piece including at least an installation magnetism, installation magnetism inhale the piece set up in the charging platform main part and be suitable for and inhale the mutual magnetism of fitting piece with this magnetism, charging platform further includes a control, wherein installation magnetism inhale the piece by controllable connection in the control, wherein installation magnetism inhales the piece and has one to have magnetism state and a no magnetism state, installation magnetism inhales the piece and is in produce magnetic field when having the magnetism state install magnetism inhale the piece and stop producing magnetic field when having the magnetism state, and work as installation magnetism inhale the piece quilt control certainly there is magnetism state transform to no magnetism state, charging platform certainly lamps and lanterns user state transform is the electronic equipment user state transform.

According to an embodiment of the present invention, the charging platform further includes a shielding member, the shielding member is set in the charging platform main body, wherein the shielding member has an operating state and an idle state and is operable to be in the operating state with change between the idle state operating state, the shielding member can shield at least part of the magnetic field of the magnetic attraction unit the idle state, the shielding member is right the shielding of the magnetic attraction unit is weakened, and works as the shielding member certainly the operating state change is to the idle state, the charging platform certainly the lamps and lanterns user state change is to the electronic equipment user state.

According to the utility model discloses an embodiment, magnetism is inhaled the unit and is inhaled the piece including at least an installation magnetism, installation magnetism inhale the piece set up in the charging platform main part and be suitable for and inhale the mutual magnetism of fitting piece with this magnetism, wherein the shield is located operating condition, installation magnetism inhale the piece right the magnetic field of loading end is at least partly shielded.

According to the utility model discloses an embodiment, the shield by movably set up in the charging platform main part, and work as the unit is inhaled with the activity to with the charging platform is inhaled to magnetism the distance of loading end enlarges, the charging platform certainly lamps and lanterns user state orientation the electronic equipment user state changes.

According to one embodiment of the present invention, the magnetic unit comprises at least one magnetic mounting element and a magnetic self-attracting element, wherein the mounting magnetic attraction piece is arranged on the charging platform to magnetically attract the magnetic attraction matching piece on the bearing surface of the charging platform, wherein the self-magnetic attraction piece is movably arranged on the charging platform main body so as to magnetically attract a wall which can be magnetically attracted on a mounting surface of the charging platform, so that the charging platform can be suspended on the wall, in the working state, the shielding part can shield at least part of the magnetic field of the installation magnetic part or the self-magnetic part, in the idle state, the shielding part is weakened for the installation magnetic attraction part or the shielding of the self magnetic attraction part, and when the shield is changed from the working state to the idle state, the charging platform is changed from the lamp use state to the electronic device use state.

According to the utility model discloses an embodiment, magnetism is inhaled the unit and is inhaled the piece including an installation magnetism and at least one from magnetism, wherein installation magnetism inhale the piece set up in charging platform with charging platform accept the face magnetism and inhale this magnetism and inhale the fitting piece, wherein inhale the piece from magnetism movably set up in the charging platform main part with a mounting face magnetism of charging platform is inhaled in a wall that can be inhaled by magnetism, so that charging platform can be hung in this wall, wherein works as inhale the piece from magnetism operated with the activity extremely with charging platform the distance of loading end enlarges, charging platform certainly lamps and lanterns user state changes into electronic equipment user state.

According to an embodiment of the present invention, the magnetic unit comprises an installation magnetic component and at least one self-magnetic component, wherein the installation magnetic component is disposed on the charging platform to magnetically attract the magnetic mating component on the receiving surface of the charging platform, wherein the self-magnetic component is movably disposed on the charging platform main body to magnetically attract a wall capable of being magnetically attracted on a mounting surface of the charging platform, so that the charging platform can be suspended on the wall, the installation magnetic component and the self-magnetic component are respectively disposed on two opposite sides, wherein the self-magnetic component has a high magnetic state and a low magnetic state, the magnetic field strength of the self-magnetic component in the high magnetic state is greater than the magnetic field strength of the self-magnetic component in the low magnetic state, and when the self-magnetic component is controlled to change from the high magnetic state to the low magnetic state, the charging platform is changed from the lamp use state to the electronic equipment use state.

According to an embodiment of the present invention, the magnetic attracting unit includes an installation magnetic attracting member and at least one self-magnetic attracting member, wherein the installation magnetic attracting member is disposed on the charging platform to magnetically attract the magnetic attracting member on the receiving surface of the charging platform, wherein the self-magnetic attracting member is movably disposed on the charging platform main body to magnetically attract a wall capable of being magnetically attracted on a mounting surface of the charging platform, so that the charging platform can be suspended on the wall, the installation magnetic attracting member and the self-magnetic attracting member are respectively disposed on opposite sides, wherein the charging magnetic attracting member has a magnetic state and a non-magnetic state, the charging magnetic attracting member generates a magnetic field in the magnetic state, the charging magnetic attracting member stops generating the magnetic field in the non-magnetic state, and when the charging magnetic attracting member is controlled to change from the magnetic state to the non-magnetic state, the charging platform is changed from the lamp use state to the electronic equipment use state.

According to an embodiment of the present invention, the magnetic unit further includes a magnetic attraction member, wherein the magnetic attraction member is installed in the charging platform main body and the magnetic attraction member is installed on two opposite sides, wherein the magnetic attraction member is adapted to be attracted to a wall capable of being magnetically attracted, so that the charging platform can be suspended on the wall.

According to an embodiment of the present invention, the number of the magnetic mounting pieces is two, and the magnetic mounting pieces are symmetrically disposed on both sides of the transmission coil.

According to the utility model discloses a further aspect, the utility model provides a charging platform is suitable for the power supply for an electrical equipment, and wherein this electrical equipment is optionally a wireless rechargeable lamps and lanterns or an electronic equipment, and wherein this lamps and lanterns are provided with at least one magnetism and inhale the fitting piece, wherein charging platform includes:

a charging platform main body;

a transmitting coil, wherein the transmitting coil is conductively connected to the charging platform body to be powered by the charging platform body; and

the magnetic attraction unit is arranged on the charging platform body and keeps a preset distance with the sending coil, at least part of the magnetic attraction unit is suitable for being attracted to a wall which can be attracted by magnetism so that the charging platform can be hung on the wall, the charging platform has a lamp using state and an electronic equipment using state, in the lamp using state, the lamp is suitable for being placed on a bearing surface of the charging platform in a mode of aligning with the sending coil to be powered, in the electronic equipment using state, the magnetic attraction effect of the magnetic attraction unit is weakened to reduce the influence on electronic components in the power demand equipment, and the electronic equipment is suitable for being placed on the bearing surface of the charging platform to be powered.

According to the utility model discloses an embodiment, magnetism is inhaled the unit and is included at least one from magnetism and inhale the piece, wherein inhale from magnetism by movably set up in the charging platform main part wherein works as inhale from magnetism the piece operated with the activity extremely with charging platform's the distance of loading end enlarges, charging platform certainly lamps and lanterns user state changes into electronic equipment user state.

Drawings

Fig. 1A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 1B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 2A is an exploded view of the charging platform according to the above preferred embodiment of the present invention.

Fig. 2B is an exploded view of the charging platform according to another aspect of the preferred embodiment of the present invention.

Fig. 3A is a schematic view of a limiting magnetic attraction mounting assembly of the charging platform according to the above preferred embodiment of the present invention.

Fig. 3B is another schematic view of the spacing magnetic attraction member mounting assembly of the charging platform according to the above preferred embodiment of the present invention.

Fig. 4A is a schematic diagram of one of the working steps of a spacing magnetic attraction mounting assembly of the charging platform according to the above preferred embodiment of the present invention.

Fig. 4B is a schematic diagram of one of the working processes of the magnetic attraction limiting element mounting assembly of the charging platform according to the above preferred embodiment of the present invention.

Fig. 4C is a schematic view of one of the working processes of the magnetic attraction limiting element mounting assembly of the charging platform according to the above preferred embodiment of the present invention.

Fig. 4D is a schematic diagram of one of the working processes of the magnetic attraction limiting element mounting assembly of the charging platform according to the above preferred embodiment of the present invention.

Fig. 5A is a schematic application diagram of the charging platform according to the above preferred embodiment of the present invention.

Fig. 5B is a schematic application diagram of the charging platform according to the above preferred embodiment of the present invention.

Fig. 5C is a schematic application diagram of the charging platform according to the above preferred embodiment of the present invention.

Fig. 5D is an application diagram of the charging platform according to the above preferred embodiment of the present invention.

Fig. 6A is a schematic diagram of the charging platform according to another preferred embodiment of the present invention.

Fig. 6B is a schematic diagram of the charging platform according to another preferred embodiment of the present invention.

Fig. 6C is a schematic diagram of the charging platform according to another preferred embodiment of the present invention.

Fig. 6D is a schematic diagram of the charging platform according to another preferred embodiment of the present invention.

Fig. 7A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 7B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 8A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 8B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 9A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 9B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 10A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 10B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 11A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 11B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 12A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 12B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 13A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 13B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 14A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 14B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 15A is a schematic diagram of a charging platform according to a preferred embodiment of the present invention.

Fig. 15B is a schematic diagram of the charging platform according to the preferred embodiment of the present invention.

Fig. 16 is a schematic diagram of the charging platform according to another preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

According to the utility model discloses an aspect, the utility model provides a charging platform 1000, wherein charging platform 1000 is suitable for a power demand equipment 2000 power supply, for example can provide the electric energy for lamps and lanterns 2000A, also can provide the electric energy for electronic equipment 2000B such as cell-phone, for example electronic equipment 2000B such as flat board, audio player, electron bracelet.

It should be noted that the charging platform 1000 can provide charging service for the lamp 2000A or the electronic device 2000B such as a mobile phone in a horizontally placed state, and can also provide charging service for the lamp 2000A or the electronic device 2000B such as a mobile phone in a vertically placed state.

In other words, when the electronic device 2000B such as a mobile phone is placed on the charging platform 1000 for charging, the electronic device 2000B such as a mobile phone can follow the charging platform 1000 to the upper wall.

For simplicity of description, a mobile phone is taken as an example for explanation. The charging platform 1000 magnetically attracts the lamp to a receiving surface of the charging platform 1000 through a magnetic attraction effect, no matter the charging platform 1000 is placed horizontally or vertically. However when charging platform 1000 is used for placing the cell-phone, charging platform 1000's magnetism is inhaled the effect and can be caused the influence to the cell-phone, the utility model provides a charging platform 1000 can let the cell-phone normally work when for the cell-phone power supply no matter be in the level state of placing or at vertical state of placing. Referring to fig. 1A to 5D, schematic views of the charging platform 1000 according to a preferred embodiment of the present invention are shown.

The charging platform 1000 includes a charging platform main body 10, at least one sending coil 20 and a magnetic unit 30, wherein the magnetic unit 30 is disposed on the charging platform main body 10 and the magnetic unit 30 can generate magnetic attraction to attract magnetism, at least a portion of the magnetic unit 30 is adapted to attract with a magnetic attraction mating member of the power demand device 2000, so that the power demand device 2000 can be attracted to the charging platform main body 10 by magnetic attraction.

The magnetic unit 30 may include at least one magnetic limiting element 31, wherein the magnetic limiting element 31 is disposed on the charging platform body 10 and enables the power requiring device 2000 to be magnetically attracted to a receiving surface 101 of the charging platform body 10 of the charging platform 1000. Preferably, the receiving surface 101 is a flat surface to facilitate the attachment of the receiving surface 101 to the power requiring device 2000.

The transmitting coil 20 is disposed on the charging platform body 10 and the charging platform body 10 can supply power to the transmitting coil 20, and the transmitting coil 20 and a receiving coil of the power demand device 2000 are used to transmit power. The power demand device 2000 may be a lamp or an electronic device such as a mobile phone.

The charging platform main body 10 may include a charging platform housing 11 and an electricity storage unit 12, wherein the electricity storage unit 12 is installed in the charging platform housing 11, and the magnetic limiting element 31 and the sending coil 20 are respectively disposed on the charging platform housing 11 of the charging platform main body 10.

The charging platform 1000 has a receiving surface 101, wherein the receiving surface 101 is used for receiving the power demand device 2000, such as the lamp 2000A or the mobile phone 2000B, the receiving surface 101 may be formed on an outer surface of the charging platform housing 11, and the position-limiting magnetic attraction member 31 may be exposed at the position of the receiving surface 101, so as to facilitate the magnetic attraction between the position-limiting magnetic attraction member 31 and the magnetic attraction mating member of the power demand device 2000. The position-limiting magnetic suction member 31 may also be located below the receiving surface 101 or installed at a recessed position of the receiving surface 101.

The transmission coil 20 may be located at the receiving surface 101, or may be located below the receiving surface 101.

The transmitting coil 20 and the magnetic limit element 31 can be kept at a predetermined distance to avoid mutual interference between the magnetic limit element 31 and the transmitting coil 20, for example, the minimum distance between the transmitting coil 20 and the magnetic limit element 31 can be kept at 2 mm-10 mm. According to some embodiments of the present invention, optionally, the distance between the limiting magnetic attraction member 31 and the sending coil 20 can be kept, for example, 7mm or more and 7mm to 8mm, for example, 7.5mm or 7.8mm or 8mm, so as to prevent the limiting magnetic attraction member 31 from affecting the normal operation of the sending coil 20.

The charging platform 1000 has a light use state and an electronic device use state and the charging platform 1000 is operable to transition between the light use state and the electronic device use state. In the usage state of the light fixture, the light fixture is placed on the receiving surface 101 of the charging platform main body 10 and is positioned to align with the transmitting coil 20 of the charging platform 1000 by the interaction between the magnetic attraction mating member and the magnetic attraction limiting member 31 of the magnetic attraction unit 30. In the electronic device using state, the electronic device is aligned with the transmitting coil 20 to be powered, when the charging platform 1000 is put on the wall, the charging platform 1000 can form a holding space 100 to change from the lamp using state to the electronic device using state, and the electronic device can be held in the holding space 100 and aligned with the transmitting coil 20 to be powered.

In detail, the charging platform 1000 has a supporting usage state and a wall-up usage state, in the supporting usage state, the electronic device or the lamp is selectively supported on the supporting surface 101 of the charging platform main body 10 and aligned with the transmitting coil 20 to be powered. If the charging platform 1000 is placed on a horizontal plane or a surface forming an acute angle with the horizontal plane, the mobile phone can be supported on the charging platform 1000 to be charged and not fall off from the charging platform 1000 under the action of gravity, and the lamp can be magnetically attracted to the bearing surface through the interaction between the magnetic attraction piece 31 and the magnetic attraction matching piece.

In the upper wall use state, the electronic device or the light fixture is selectively retained outside the receiving surface 101 of the charging platform main body 10, if the light fixture is retained outside the receiving surface 101 of the charging platform main body 10, the light fixture is retained outside the receiving surface 101 of the charging platform main body 10 by the magnetic attraction of the magnetic attraction fitting and the magnetic attraction member 31, if the electronic device is retained outside the receiving surface 101 of the charging platform main body 10, the charging platform 1000 can form the retaining space 100, and the electronic device can be retained in the retaining space 100 and aligned with the transmitting coil 20 to be powered.

In other words, the charging platform 1000 can provide a plurality of use states, one state for placing the light fixture, due to the magnetic attraction between the charging platform 1000 and the light fixture, no matter whether the charging platform 1000 is horizontally placed or suspended, the lamps can be attached to the charging platform 1000 to be powered, a state to power the electronic device, the electronic device may be manually aligned with the sending coil 20, or may be snap-fit or otherwise aligned with the charging platform 1000, however the electronic device is generally not configured with the magnetically attractive mating member, therefore, when the charging platform 1000 is suspended, the electronic device is held outside the receiving surface 101 through the holding space 100 formed by the charging platform 1000, so that the electronic device can be wirelessly charged in the suspended state.

In more detail, the charging platform 1000 includes a holding member 40, wherein the holding member 40 is mounted to the charging platform main body 10, and the holding member 40 is used for holding the electronic device, especially when the electronic device is placed on the charging platform 1000 and may fall off the charging platform 1000. The holder assembly 40 includes a holder 41 and a holder control member 42, wherein the holder 41 is controllably connected to the holder control member 42.

In this embodiment, the supporting member 41 is movably mounted on the charging platform main body 10, for example, the charging platform housing 11. When at least a portion of the support member 41 moves to a distance from the receiving surface 101 of the charging platform body 10, the holding space 100 can be formed between the support member 41 and the receiving surface 101 of the charging platform body 10. The electronic device may be held in the holding space 100, and the holder 41 may hold the electronic device so that the electronic device can be maintained in alignment with the transmitting coil 20 to be supplied with power when the charging platform 1000 is suspended for use.

The supporting member 41 includes a first supporting arm 411 and a second supporting arm 412, wherein the first supporting arm 411 and the second supporting arm 412 are respectively connected to two ends of the charging platform main body 10. The first and second support arms 411 and 412 are respectively connected to the charging platform main body 10 to be movable back and forth.

The supporting member 41 further comprises a supporting platform 413, wherein the supporting platform 413 is connected to the first supporting arm 411 and the second supporting arm 412 respectively. The supporting platform 413 is located between the first supporting arm 411 and the second supporting arm 412. When the electronic device is suspended for use, the supporting platform 413 can directly support the electronic device to prevent the electronic device from directly falling under the action of gravity. The first supporting arm 411 and the second supporting arm 412 can prevent the electronic device from falling down, so that the electronic device is tightly attached to the receiving surface 101 of the charging platform main body 10.

When the charging platform 1000 needs to be used on the wall, at least a portion of the supporting member 41 may be moved outward to form the holding space 100.

It is noted that when the charging platform 1000 does not need to be used on the wall and power the electronic device, the supporting member 41 can be retracted and the supporting surface 101 of the charging platform 1000 can become a plane.

In detail, the surface of the charging platform main body 10 is recessed to form an accommodating space 102, and the supporting member 41 is accommodated in the accommodating space 102.

The surface of the charging platform body 10 and the surface of the support 41 form one of the support surfaces. Preferably, the surface of the supporting member 41 and the surface of the charging platform main body 10 on the side where the supporting member 41 is located are located on the same plane, so that the charging platform 1000 can provide a horizontal receiving surface 101.

Further, when the support 41 is separated from the charging platform main body 10, the charging platform 1000 can form a holding port 1001, wherein the holding port 1001 is communicated with the holding space 100 and is located at the high end of the support 41. The holder 41 has the high end and a low end, wherein the distance from the holder 41 to the receiving surface 101 of the charging platform main body 10 is set to be gradually smaller from the high end to the low end of the holder 41, so that the holding opening 1001 is set to be larger to facilitate placement of the electronic device.

The supporting platform 413 of the supporting member 41 is rotatable to be movably connected to the charging platform main body 10, and the first supporting arm 411 and the second supporting arm 412 are movable to be movably connected to the charging platform main body 10.

The seating control member 42 may include an elastic member 421 and an operation button 422, wherein the seating member 41 is elastically coupled to the elastic member 421 and the elastic member 421 is coupled to the charging platform main body 10. The elastic member 421 is operatively connected to the operation button 422. When the user operates the operation button 422, the supporting member 41 is pushed by the outside to overcome the elastic force of the elastic member 421, and then moves outward to form the holding space 100. When the user releases the operating button 422, the support 41 is automatically reset.

Further, the supporting member 40 includes a supporting limiting member 43, wherein the supporting limiting members 43 are respectively installed at two sides of the supporting member 41, and the supporting limiting members 43 are respectively connected to the charging platform main body 10 and the supporting member 41.

The supporting and limiting member 43 forms a limiting groove 430 with a predetermined length, wherein the first supporting arm 411 and the second supporting arm 412 of the supporting member 41 can respectively move back and forth along the limiting groove 430 of the supporting and limiting member 43, so that the supporting member 41 has a moving space.

In other words, the size of the holding space 100 formed by the supporting member 41 and the charging platform main body 10 is variable within a certain range to adapt to electronic devices within a certain size range, or to leave a certain operable space for users.

It is understood that the support 41 may be mounted to the charging platform body 10 in other manners. For example, referring to fig. 6A, the supporting member 41 is detachably arranged, and when an electronic device needs to be charged in an on-wall state, the supporting member 41 can be installed on the charging platform main body 10 to form the holding space 100. The type of the supporting member 41 may be various, for example, as shown in fig. 6B, the supporting member 41 includes the first supporting arm 411 and the second supporting arm 412, and the first supporting arm 411 and the second supporting arm 412 respectively support the electronic device from two sides of the electronic device. Optionally, the distance between the first supporting arm 411 and the second supporting arm 412 is variable, for example, the first supporting arm 411 and the second supporting arm 412 are respectively connected to the charging platform main body 10 through elastic elements. When the size of the electronic device changes, the holding space 100 formed between the first supporting arm 411 and the second supporting arm 412 can be adapted to the change of the electronic device.

Referring to fig. 6C, the supporting member 41 includes the first supporting arm 411, the second supporting arm 412 and the supporting platform 413, wherein the supporting platform 413 is fixed to the charging platform main body 10, and the first supporting arm 411 and the second supporting arm 412 are movably disposed so that a distance between the first supporting arm 411 and the second supporting arm 412 is changed to accommodate electronic devices with different sizes.

Referring to fig. 6D, the supporting member 41 includes the first supporting arm 411, the second supporting arm 412 and the supporting platform 413, wherein the first supporting arm 411, the second supporting arm 412 and the supporting platform 413 are respectively configured to be movable relative to the charging platform main body 10, so that the size of the supporting member 41 in the length direction or the width direction can be changed to match electronic devices with different length sizes or width sizes. It will be appreciated that the holding space 100 is formed in the support 41.

It is understood that at least one of the supporting arms is movably disposed on the charging platform main body 10 so that the size of the holding space 100 is adjusted.

It is understood that the electronic device can be held on the receiving surface 101 of the charging platform main body 10 in various ways in the case where the electronic device cannot be aligned with the transmitting coil 20 of the charging platform 1000 under the action of gravity. The electronic device can be pressed, engaged, pressed, and constrained on the receiving surface 101 of the charging platform main body 10, and can also be supported, and suspended outside the receiving surface 101 and kept within a chargeable distance from the receiving surface 101.

It is understood that the holding space 100 formed by the supporting member 41 and the charging platform body 20 may exist in different states all the time. When the lamp 2000A is placed, the holding space 100 may be enlarged for placing the lamp 2000A, and when the electronic device 2000B is placed, the holding space 100 may be reduced for holding the electronic device 2000B.

The supporting member 41 mainly holds the electronic device 2000B on the charging platform body 20 by acting forces in two directions, one is that the direction of the acting force simultaneously penetrates through the electronic device 2000B and the charging platform body 20, for example, a direction perpendicular to the receiving surface 101, for example, in a manner of pressing the electronic device 2000B on the receiving surface 101, and the other is that the direction of the acting force only penetrates through the electronic device 2000B, for example, a direction parallel to the receiving surface 101, for example, clamping the electronic device 2000B to be held outside the receiving surface 101.

In other words, the electronic device 2000B is pressed to be attached to the receiving surface 101 by the supporting member 41, or the electronic device 2000B is supported and held to be attached to the receiving surface 101 by the supporting member 41.

Referring to fig. 5A, the charging platform 1000 is in the resting use state, and the lamp 2000A is placed on the charging platform 1000 and aligned to be powered under the magnetic attraction of the magnetic attraction element 31 and the magnetic attraction mating element. Referring to fig. 5B, the charging platform 1000 is in the resting use state, and the electronic device 2000B is placed on the charging platform 1000 and aligned to be powered under the magnetic attraction of the magnetic attraction element 31 and the magnetic attraction mating element. Referring to fig. 5C, when the charging platform 1000 is in the upper wall use state, the lamp 2000A is held outside the receiving surface 101 by the magnetic attraction of the magnetic attraction member 31 and the magnetic attraction mating member and is aligned with the transmitting coil 20 to be powered. Referring to fig. 5D, the charging platform 1000 is in the upper wall use state, and the electronic device 2000B is held outside the receiving surface 101 and aligned with the transmitting coil 20 to be powered.

The charging platform 1000 has a light use state and an electronic device use state and the charging platform 1000 is operable to switch between the light use state and the electronic device use state. Further, in the light fixture using state, the light fixture 2000A is adapted to be fixedly mounted on the receiving surface 101 of the charging platform 1000 by the magnetic attraction of the limiting magnetic attraction element 31 and the magnetic attraction mating element and aligned with the sending coil 20 to be powered. In the use state of the electronic device, the magnetic attraction of the position-limiting magnetic attraction member 31 to the electronic device 2000B is weakened, and the electronic device 2000B is placed on the receiving surface 101 of the charging platform 1000 in a manner of being aligned with the transmitting coil 20.

It is noted that, in the use state of the electronic device, the lamp 2000A may also be placed on the charging platform 1000 for use. Currently, the types of the lamp 2000A are various, and intelligentization and internet of things are the developing directions, and the lamp 2000A integrated with a plurality of electronic components is suitable for being placed on the charging platform 1000 to be charged when the charging platform 1000 is in the electronic device use state.

In other words, the light fixture usage status or the electronic device usage status is not a mandatory limitation on the type of the power demand device 2000. When the charging platform 1000 is in the lamp usage state, the charging platform 1000 is more suitable for providing electric energy for the lamp 2000A, and when the charging platform 1000 is in the electronic device usage state, the charging platform 1000 is more suitable for providing electric energy for the electronic device 2000B such as a mobile phone.

Further, the position-limiting magnetic attraction element 31 is movably disposed on the charging platform main body 10, and when the position-limiting magnetic attraction element 31 is operable to move to a distance from the receiving surface 101 of the charging platform 1000, the charging platform 1000 can be changed from the lamp usage state to the electronic device usage state.

It should be noted that the magnetic limiting element 31 may be disposed at a certain distance from the transmitting coil 20 to avoid the magnetic limiting element 31 affecting the power transmission between the transmitting coil 20 and the receiving coil.

It is noted that when the power-requiring device is placed on the charging platform 1000 for charging, a certain distance needs to be kept between the transmitting coil 20 of the charging platform 1000 and the receiving coil of the power-requiring device to facilitate the transmission efficiency between the transmitting coil 20 and the receiving coil. Too large or too small a distance will affect the transmission efficiency. According to some embodiments of the present invention, the distance between the sending coil 20 and the receiving coil ranges from 2mm to 3mm, for example 2.5 mm.

Alternatively, the transmitting coil 20 can be disposed at an intermediate position of the charging platform housing 11 of the charging platform main body 10, and the position-limiting magnetic attraction member 31 can be disposed around the transmitting coil 20.

In this embodiment, the position-limiting magnetic attraction member 31 is rotatable to be movably disposed on the charging platform main body 10.

The charging platform 1000 further comprises a magnetic-attraction-limiting mounting component 50, wherein the magnetic-attraction-positioning component 32 is mounted on the magnetic-attraction-limiting mounting component 50, and the magnetic-attraction-limiting mounting component 50 is mounted on the charging platform main body.

In detail, referring to fig. 3A to 4D, the limiting magnetic component mounting assembly 50 includes a limiting magnetic component mounting member 51 and a limiting magnetic component controlling member 52, wherein the limiting magnetic component mounting member 51 is movably connected to the charging platform main body, and the limiting magnetic component mounting member 51 is operably connected to the limiting magnetic component controlling member 52.

The charging platform main body 10 forms a receiving groove 103 at an edge position, wherein the receiving groove 103 is formed by recessing at least a portion of the edge of the charging platform main body 10. The limiting magnetic part mounting member 51 is mounted on the charging platform main body 10 and located in the accommodating groove 103.

The magnetic limiting element mounting member 51 is rotatably connected to the charging platform body 10, and the magnetic limiting element mounting member 51 has a first connecting end and a second connecting end, which are respectively rotatably connected to the charging platform body 10.

The mounting member 51 is magnetically attracted to a position-limiting element, which has a working surface 501 and a free surface 502, wherein when the working surface 501 and the receiving surface 101 of the charging platform main body 10 are on the same side, for example, the same plane, the mounting member 31 is magnetically attracted to a position-limiting element, which is mounted on the mounting member 51, and can magnetically attract the lamp placed on the receiving surface 101. When the idle surface 502 and the receiving surface 101 of the charging platform main body 10 are located on the same plane, the limiting magnetic component 31 mounted on the limiting magnetic component mounting member 51 does not magnetically attract the lamp placed on the receiving surface 101, or does not magnetically attract the electronic device placed on the receiving surface 101 or can be weakened to enable the electronic device to normally work.

In this embodiment, the limiting magnetic attraction piece mounting member 51 is rotatably mounted to the charging platform main body 10. By operating the position-limiting magnetic element control element 52, the position-limiting magnetic element mounting element 51 and a surface of the charging platform main body 10 can be switched back and forth between the working surface 501 and the idle surface 502.

Alternatively, the working surface 501 may be a magnetic surface, and the idle surface 502 may be an opposite nonmagnetic surface. It should be noted that the working surface 501 is not necessarily opposite to the idle surface 502, and may be adjacent to the idle surface 502.

The magnetic surface is magnetically attracted to the lamp 2000A. The limiting magnetic attraction piece can be positioned on the magnetic surface or arranged close to the magnetic surface.

When the working surface 501 is rotated to be located on the same side as the receiving surface 101 of the charging platform main body 10, the charging platform 1000 is in the light fixture using state, and the light fixture 2000A can be magnetically attracted to the receiving surface 101 through the magnetic attraction mating member and aligned with the transmitting coil 20 of the charging platform main body 10. When the idle surface 502 is rotated to be located on the same side as the receiving surface 101 of the charging platform main body 10, the charging platform 1000 is in the electronic device using state, and the magnetic attraction of the limiting magnetic attraction piece on the electronic device 2000B placed on the receiving surface 101 can be weakened.

Specifically, the magnetic element control member 52 includes a pushing member 521, a rotating member 522 and an elastic supporting member 523, wherein the rotating member 522 is connected to the magnetic element mounting member 51 to rotate the magnetic element mounting member 51, and the elastic supporting member 523 is supported on the rotating member 522. One end of the rotating member 522 is connected to the limiting magnetic element mounting member 51, and the other end is connected to the elastic supporting member 523. The rotation member 522 is drivable to be rotatably connected to the pushing member 521, wherein the pushing member 521 is operable to be moved by a user to drive the rotation member 522 to rotate.

In more detail, the rotating member 522 is formed with a guiding inclined slot 5220, wherein when the pushing member 521 is moved along the guiding inclined slot 5220, the rotating member 522 is driven to rotate, so that the position of the position-limiting magnetic element mounting member 51 on the working surface 501 and the idle surface 502 is changed.

The pushing member 521 includes a pushing member housing 5211, a pushing moving member 5212 and a pushing elastic member 5213, wherein the pushing member housing 5211 forms a pushing operation passage 521102 and a driving moving passage 521101, and the rotating member 522 is mounted to the driving moving passage 521101 and is rotatable in the axial direction within the driving moving passage 521101. The push moving member 5212 is accommodated in the push moving channel 521102 and can move back within the push moving channel 521102.

One end of the pushing moving part 5212 is supported by the pushing elastic part 5213, and the other end is pressed against the rotating part 522.

The guide groove 5220 is obliquely formed on the surface of the rotation member 522, and the rotation member 522 forms a proximal alignment groove 52201 and a distal alignment groove 52202, wherein the proximal alignment groove 52201 is adjacent to the position-limiting magnetic suction member mounting member 51, and the distal alignment groove 52202 is adjacent to the elastic support member 523.

The proximal aligning groove 52201 and the distal aligning groove 52202 communicate with each other through the guide chute 5220.

It is noted that the proximal aligning groove 52201 and the distal aligning groove 52202 may be located at a lower position than the surrounding guide chutes 5220 to perform the aligning function.

In this embodiment, when the working surface 501 and the receiving surface 101 of the limiting magnetic element mounting member 51 are located on the same side, the pushing moving element 5212 of the pushing member 521 is located in the proximal alignment groove 52201 of the rotating element 522. When the pushing member 521 moves along the surface of the rotating member 522 toward the direction close to the elastic support 523, the pushing moving member 5212 moves from the proximal aligning groove 52201 toward the distal aligning groove 52202 along the guide inclined groove 5220. Under the driving of the pushing moving member 5212, the rotating member 522 is rotated simultaneously, as shown in fig. 4B.

When the push moving member 5212 moves to the distal alignment groove 52202, the resilient support 523 has been compressed and the push moving member 5212 cannot continue to move in the same direction.

The user can release the pushing member 521, and at this time, under the action of the elastic support 523, the pushing moving member 5212 automatically moves along the guiding inclined groove 5220 to move toward the other proximal aligning groove 52201, so that the rotating member 522 continues to turn in the uniform direction, referring to fig. 4C to 4D. When the pushing moving member 5212 moves to another proximal end aligning groove 52201, the positions of the working surface 501 and the idle surface 502 of the limiting magnetic suction member mounting member 51 are exchanged, and the idle surface 502 and the receiving surface 101 are located on the same side.

It is worth mentioning that in the present embodiment, the guiding chutes 5220 are designed to be formed by splicing two identical V-shaped grooves, and actually, the shape of the guiding chutes 5220 may be designed according to actual requirements, for example, the number of the V-shaped grooves may be more or less to obtain the desired rotation angle.

Further, the number of the push moving pieces 5212 and the push elastic pieces 5213 of the push member 521 is two, respectively, and are symmetrically designed at both sides of the rotation piece 522.

As for the pushing moving element 5212 of the pushing member 521, under the action of the pushing elastic element 5213, when the pushing moving element 5212 moves to the proximal aligning groove 52201 or the distal aligning groove 52202, it can be attached to the surface of the rotating member 522 in a height difference manner, so that the rotating angle of the rotating member 522 can be aligned and controlled.

Further, in the present embodiment, the rotating member 522 includes a rotating rod 5222 and a top rod 5221, wherein the rotating rod 5222 is mounted to the magnetic retaining element mounting member 51, the top rod 5221 is supported by the elastic supporting member 523, the top rod 5221 is supported by the rotating rod 5222, and the guiding chute 5220 is formed on the top rod 5221 and/or the rotating rod 5222. The proximal aligning groove 52201 can be formed in the rotating rod 5222, and the distal aligning groove 52202 can be formed in the top rod 5221.

In this embodiment, the number of the proximal aligning grooves 52201 and the number of the distal aligning grooves 52202 are two, respectively.

The top bar 5221 can be formed with four inclined top bar grooves 52210 at the end, and the adjacent top bar grooves 52210 can be formed with a V-shaped or U-shaped structure, and similarly, the rotating bar 5222 can be formed with four inclined rotating bar grooves 52220 at the end, and the adjacent rotating bar grooves 52220 can be formed with a V-shaped or U-shaped structure. When the top bar 5221 is mounted to the rotating rod 522, the guide chute 5220 is formed.

It should be noted that by designing the inclined direction of the guiding chute 5220, the moving direction of the pushing moving member 5212 can be controlled, so as to determine the rotating direction of the rotating member 522, for example, clockwise or counterclockwise.

In the above manner, the limiting magnetic attraction piece mounting member 51 is rotatably mounted on the charging platform main body 10.

It should be noted that, in the above manner, when the charging platform 1000 supplies power to the electronic device, the influence of the limiting installation part 51 of the charging platform 1000 on the electronic device can be weakened or eliminated, so that the electronic device is not influenced by the magnetic field of the limiting installation part 51, and thus can work normally.

Further, the formation of the restraining magnetic attachment assembly 50 and the holding space 100 can be coordinated.

The magnetic-attraction-limiting-member control member 52 of the magnetic-attraction-limiting-member mounting assembly 50 and the support control member 42 for controlling the support member 41 may be selectively operated, and either one of them may be operated, and the magnetic-attraction-limiting-member mounting member 51 and the support member 41 may be simultaneously actuated.

Alternatively, the retaining magnet mount assembly 50 can have the retaining magnet control member 52 and the keeper control member 42 integrated together.

It can be understood that the charging platform 10 can provide four usage modes, one usage mode is that the limiting magnetic part 31 and the receiving surface 101 are located on the same side, the holding space 100 is not formed, the other usage mode is that the limiting magnetic part 31 and the receiving surface 101 are located on the same side, the holding space 100 is formed, the one usage mode is that the limiting magnetic part 31 and the receiving surface 101 are not located on the same side, for example, the two sides are opposite to each other, the holding space 100 is not formed, and therefore the mobile phone placed horizontally can be charged, the other usage mode is that the limiting magnetic part 31 and the receiving surface 101 are not located on the same side, for example, the two sides are opposite to each other, and the holding space 100 is formed and can be used for the mobile phone placed vertically to be charged.

It can be understood that the limiting magnetic attraction member 31 does not necessarily affect the normal operation of the electronic device, for example, the lamp specification adapted to the charging platform 10 is small, and when the magnetic force of the limiting magnetic attraction member 31 itself is weak, under some circumstances, the limiting magnetic attraction member 31 may not be switched between the lamp use state and the electronic device use state.

When the position-limiting magnetic part 31 and the supporting part 41 are linked, the charging platform 10 can provide two using modes, one using mode is that the position-limiting magnetic part 31 and the supporting surface 101 are located on the same side, the holding space 100 is not formed, the other using mode is that the position-limiting magnetic part 31 and the supporting surface 101 are not located on the same side, for example, are arranged in a back-to-back manner, and the holding space 100 is formed and can be used for charging a vertically placed mobile phone.

The limiting magnetic part 31 and the supporting part 41 can be connected through a linkage mechanism such as a connecting rod, so that linkage is achieved.

The idle surface 502 may be coated with a layer of magnetic isolation material, or at least a portion of the limiting magnetic component mounting member 51 is made of magnetic isolation material, so that when the charging platform 1000 is in the electronic device usage state, the influence of the limiting magnetic component 31 on the electronic device 2000B can be weakened, and even the magnetic attraction effect of the limiting magnetic component 31 on the electronic device 2000B placed on the receiving surface 101 can disappear.

It is noted that, during the process of switching the working surface 501 and the idle surface 502, the charging platform 1000 has a high magnetic state and a low magnetic state, and in the high magnetic state, the charging platform 1000 has sufficient magnetic force for the lamp 2000A, so that the lamp 2000A can be attracted to the receiving surface 101. The lamp 2000A can be attached to the charging platform 1000 in either a horizontal position or a vertical position. In the low magnetic state, the magnetic attraction of the charging platform 1000 to the electronic device 2000B is lowered to reduce the influence on the internal components of the electronic device 2000B as much as possible. It is understood that when the electronic device 2000B is light in weight, the electronic device 2000B can still be magnetically attracted to the charging platform 1000.

In other words, when the charging platform 1000 is in the electronic device usage state, the magnetic attraction force of the limiting magnetic attraction element 31 on the electronic device 2000B does not disappear completely, but is weakened to a range that does not interfere with the normal operation of the electronic device 2000B, and when the electronic device 2000B is configured with the magnetic attraction mating element, the electronic device 2000B can still be positioned on the charging platform 1000 by a magnetic attraction manner.

In other embodiments of the present invention, the charging platform 1000 has a magnetic state and a non-magnetic state, the charging platform 1000 has sufficient magnetic force for the lamp 2000A, so that the lamp 2000A can be adsorbed on the receiving surface 101. For example, the lamp 2000A can be attached to the charging platform 1000 in either a horizontal position or a vertical position. In the non-magnetic state, the magnetic force of the magnetic limiting element 31 of the charging platform 1000 on the electronic device 2000B is small, so that the internal components of the electronic device 2000B are not interfered by the magnetic limiting element 31.

In other words, when the charging platform 1000 is in the electronic device usage state, the magnetic attraction force of the limiting magnetic attraction member 31 on the electronic device 2000B can completely disappear, so as to ensure that the internal components of the electronic device 2000B are not affected. The electronic device 2000B may be positioned on the charging platform 1000 in other manners, for example, corresponding recesses and protrusions are respectively disposed on the electronic device 2000B and the charging platform 1000, and the electronic device 2000B is positioned on the charging platform 1000 in a snap-fit manner.

Further, in this embodiment, the limiting magnetic attraction piece 31 is configured to rotate around a shaft, and the rotation angle may be 180 degrees or more.

It is understood that the charging platform 1000 can be switched between the high magnetic state and the low magnetic state or between the magnetic state and the non-magnetic state by changing the relative position of the position-limiting magnetic attraction member 31 and the receiving surface 101, or by changing the position-limiting magnetic attraction member 31 in other manners.

Referring to fig. 7A and 7B, the magnetic limiting element 31 is movably connected to the charging platform main body 10 in other manners, so that when the electronic device is in a use state, the magnetic limiting element 31 does not affect the normal operation of the electronic device.

In detail, the position-limiting magnetic attraction member is movable to be movably connected to the charging platform main body 10. When the magnetic limiting element moves to a predetermined position, the charging platform 1000 is in the lamp operating state, and the lamp 2000A can align the receiving coil of the lamp 2000A with the transmitting coil 20 of the charging platform 1000 by aligning the magnetic limiting element 31 with the magnetic attraction mating element. When the position-limiting magnetic attraction piece 31 moves to another position, which is farther from the receiving surface 101 than the previous position, the charging platform 1000 is in the electronic device using state, the electronic device 2000B can be placed on the charging platform 1000 in a manner that the receiving coil and the sending coil 20 are aligned for use, and at this time, the magnetic field influence of the position-limiting magnetic attraction piece 31 on the electronic device 2000B placed on the receiving surface 101 of the charging platform 1000 can be weakened, so that the interference of the position-limiting magnetic attraction piece of the charging platform 1000 on the electronic components inside the electronic device 2000B is avoided, and the normal operation of the electronic device 2000B is further influenced.

In more detail, the charging platform 1000 further includes a limiting magnetic component mounting member 51, wherein the limiting magnetic component 31 is supported on the limiting magnetic component mounting member 51 and the limiting magnetic component mounting member 51 is disposed on the charging platform main body 10, for example, the limiting magnetic component mounting member 51 is disposed on an edge of the charging platform main body 10.

Spacing magnetism of a piece installed part 51 is inhaled to spacing magnetism of a piece installed part 51 has a link and a free end, wherein spacing magnetism of a piece installed part 51 is inhaled the link rotationally connect in charging platform main part 10, and spacing magnetism is inhaled a piece installed part 51 and can be rotated extremely with charging platform main part 10 forms an contained angle.

When the charging platform 1000 needs to be in the lamp usage state, the limiting magnetic part mounting member 51 can be rotated to enable the limiting magnetic part mounting member 51 to be provided with a working surface 501 of the limiting magnetic part 31 and the receiving surface 101 of the charging platform main body 10 to be located on the same plane, and the limiting magnetic part mounting member 51 and the charging platform main body 10 are close to each other. When the charging platform 1000 needs to be in the use state of the electronic device, the mounting part 51 of the limiting magnetic component is rotated to make the mounting part 51 of the limiting magnetic component and the included angle between the charging platform main body 10 enlarged, so that the mounting part 51 of the limiting magnetic component and the mounting part 51 of the limiting magnetic component can be far away from the working surface 401 and the receiving surface 101, and further the influence of the limiting magnetic component 31 on the electronic device 2000B placed on the receiving surface 101 can be weakened.

By changing the relative positions of the magnetic limiting piece mounting part 51 and the charging platform main body 10, the magnetic field influence of the magnetic limiting piece 31 arranged on the magnetic limiting piece mounting part 51 on the receiving surface 101 of the charging platform main body 10 can be changed.

When a user needs to use the charging platform 1000 to supplement electric energy to the lamp 2000A, the limiting magnetic attraction piece mounting part 51 can be operated to enable the charging platform 1000 to be in the lamp using state, and when the user needs to use the charging platform 1000 to supplement electric energy to the mobile phone, the limiting magnetic attraction piece mounting part 51 can be operated to enable the charging platform 1000 to be in the electronic device using state.

Referring to fig. 8A and 8B, a schematic diagram of the charging platform 1000 according to another preferred embodiment of the present invention is shown.

In this embodiment, the limiting magnetic attraction piece mounting member 51 of the charging platform 1000 is movable to be movably connected to the charging platform main body 10.

In detail, the magnetic limiting component 31 is disposed on the magnetic limiting component mounting member 51 and the magnetic limiting component mounting member 51 is movably disposed on the charging platform main body 10.

The charging platform body 10 forms a sliding slot 104, wherein the position-limiting magnetic attraction piece mounting member 51 is accommodated in the sliding slot 104 and can be pushed to be movably accommodated in the sliding slot 104.

When the magnetic limiting component mounting member 51 is received in the sliding slot 104 and is disposed on the magnetic limiting component 31 of the magnetic limiting component mounting member 51 at a desired position, so that the magnetic limiting component 31 and the transmitting coil 20 of the charging platform 1000 maintain a predetermined position, the charging platform 1000 is in the lamp usage state, when the lamp 2000A is placed on the charging platform 1000, the receiving coil of the lamp 2000A can be automatically aligned with the transmitting coil 20 under the action of the magnetic limiting component 31 and the magnetic limiting component, and the alignment of the receiving coil and the transmitting coil 20 of the lamp 2000A can be maintained. That is to say, the lamp 2000A can be positioned on the charging platform 1000, for example, when the number of the magnetic limiting elements 31 is two, and the number of the magnetic limiting mating elements is two, two points determine a straight line, and the lamp 2000A can be positioned on the charging platform 1000 by aligning each of the magnetic limiting elements 31 with the magnetic mating element.

When a user desires that the charging platform 1000 is changed to the electronic device usage state when the light fixture usage state is changed, the limiting magnetic attraction piece mounting member 51 is pushed along the sliding groove 104, so that the limiting magnetic attraction piece 31 is away from the receiving surface 101, and the influence of the limiting magnetic attraction piece 31 on the electronic device 2000B on the receiving surface 101 is reduced.

Further, in this embodiment, the number of the limiting magnetic assemblies 51 is two, and each of the limiting magnetic assemblies 51 is provided with one limiting magnetic assembly 31.

Two when piece installed part 51 was inhaled to spacing magnetism moved to the laminating in opposite directions, charging platform 1000 is in lamps and lanterns user state. When the two magnetic limiting mounting members 51 move back to be away from the sending coil 20, the charging platform 1000 changes from the lamp use state to the electronic device use state.

Referring to fig. 9A and 9B, the charging platform 1000 according to another preferred embodiment of the present invention is illustrated.

In this embodiment, the limiting magnetic element 31 is configured to have a magnetic force with a variable magnitude. The charging platform 1000 further comprises a control member 60, wherein the position-limiting magnetic attraction member 31 is controllably connected to the control member 60 by the magnetic force.

The power storage unit 12 of the charging platform main body 10 is electrically connected to the magnetic limiting element 31, and the magnetic limiting element 31 can convert electric energy into a magnetic field. The control member 60 can control the magnetic force of the position-limiting magnetic attraction member 31 by controlling the power supply of the electric storage unit 12 to the position-limiting magnetic attraction member 31 or controlling the on-off between the electric storage unit 12 and the position-limiting magnetic attraction member 31.

When the spacing magnetic attraction piece 31 is in the high magnetic state, the lamp 2000A can be magnetically attracted to the charging platform 1000 through the interaction between the magnetic attraction fitting piece and the spacing magnetic attraction piece 31, when the spacing magnetic attraction piece 31 is in the low magnetic state, the electronic device 2000B can be placed on the charging platform 1000 to be charged, and meanwhile, the spacing magnetic attraction piece 31 of the charging platform 1000 cannot affect the normal work of the electronic device 2000B. By controlling the magnetic force of the magnetic attraction limiting element 31 by the control element 60, the lamp usage status and the electronic device usage status of the charging platform 1000 can be switched.

In another embodiment, when the magnetic attraction limiting element 31 is in the magnetic state, the lamp 2000A can be magnetically attracted to the charging platform 1000 through the interaction between the magnetic attraction matching element and the magnetic attraction limiting element 31, and when the magnetic attraction limiting element 31 is in the non-magnetic state, the electronic device 2000B can be placed on the charging platform 1000 to be charged, and meanwhile, the magnetic attraction limiting element 31 of the charging platform 1000 does not affect the normal operation of the electronic device 2000B. By controlling the magnetic state and the non-magnetic state of the magnetic limiting element 31 by the control element 60, the lamp using state and the electronic device using state of the charging platform 1000 can be switched.

Referring to fig. 10A and 10B, the charging platform 1000 according to another preferred embodiment of the present invention is illustrated.

Further, the charging platform 1000 includes a shielding member 70, wherein the shielding member 70 can be disposed on the charging platform main body 10. The shielding element 70 can shield the position-limiting magnetic attraction element 31.

The shielding element 70 has an operating state and an idle state, in the operating state, the shielding element 70 can shield at least part of the magnetic field generated by the magnetic-attraction limiting element 31, in the idle state, the shielding element 70 weakens the shielding for the magnetic-attraction limiting element 31, and when the shielding element 70 is switched from the operating state to the idle state, the charging platform 1000 is changed from the lamp using state to the electronic device 2000B user state.

The shielding element 70 may be movably disposed on the charging platform main body 10, and the relative position between the shielding element 70 and the position-limiting magnetic-attracting element 31 is changed to change the influence of the position-limiting magnetic-attracting element 31 on the lamp 2000A or the electronic device 2000B placed on the receiving surface 101 of the charging platform main body 10.

For example, the shielding element 70 is connected to the charging platform main body 10 in a rotatable manner, when the shielding element 70 is turned over to cover the position-limiting magnetic attraction element 31 to perform a shielding function, the charging platform 1000 is located in the electronic device using state, and when the shielding element 70 is turned over to expose the position-limiting magnetic attraction element 31 on the receiving surface 101, the charging platform 1000 is located in the lamp using state.

For example, the shielding member 70 is detachably mounted to the charging platform main body 10, the shielding member 70 is provided with the magnetically attracting fitting member and the shielding member 70 is made of a magnetic shielding material. When the shielding element 70 is installed on the charging platform main body 10, the shielding element 70 covers the position-limiting magnetic attraction element 31 and plays a shielding role. When the user needs to position the lamp 2000A, the shielding element 70 can be removed to expose the position-limiting magnetic attraction element 31 again.

It is understood that an electronic device may be vertically held between the support 41 and the charging platform body 10 or may be horizontally stood between the support 41 and the charging platform body 10, based on the specification of the support 41 provided by the charging platform 1000.

Referring to fig. 11A and 11B, the charging platform 1000 according to another preferred embodiment of the present invention is illustrated.

In this embodiment, the magnetic unit 30 of the charging platform 1000 further includes a self-magnetic element 32, wherein the self-magnetic element 32 is disposed on the charging platform body 10 and adapted to be magnetically attracted to a wall, so that the charging platform 1000 can be installed on a certain height of the wall for use.

It is understood that the self-attracting element 32 may be made of a magnetic material and the wall may be made of a magnetically attracted material, for example, the self-attracting element 32 may be a magnet and the wall may be made of iron. Alternatively, the self-attracting element 32 may be made of a magnetically attracting material, and the wall may be made of a magnetic material.

Similarly, the limiting magnetic element 31 may be made of a magnetic material, and the magnetic engaging element may be made of a magnetic material, or a magnetically attractable material. Alternatively, the magnetic engaging element may be made of a magnetic material, and the position-limiting magnetic element 31 may be supported by a magnetic material or a magnetically attractable material.

Further, optionally, the self-magnetic-attraction element 32 and the limiting magnetic-attraction element 31 are respectively located at two opposite sides of the charging platform main body 10, for example, the limiting magnetic-attraction element 31 may be located on the receiving surface 101 of the charging platform main body 10, the self-magnetic-attraction element 32 may be located on an installation surface 105 of the charging platform main body 10, wherein the receiving surface 101 and the installation surface 105 are respectively located at two opposite sides, and the installation surface 105 is suitable for being attached to the wall or other positions where the charging platform 1000 can be installed.

The charging platform 1000 has a light usage state and an electronic device usage state, in the light usage state, the light 2000A is adapted to be positioned on the receiving surface 101 of the charging platform 1000 and aligned with the transmitting coil 20 to be powered through at least part of the magnetic attraction unit 30 and the magnetic attraction of the magnetic attraction mating member, in the electronic device usage state, the magnetic attraction of the magnetic attraction unit 30 is weakened to reduce the influence on the electronic components in the electronic device 2000B, and the electronic device 2000B is adapted to be positioned on the receiving surface 101 of the charging platform 1000 to be powered in a manner of being aligned with the transmitting coil 20.

The magnetic attraction unit 30 may be configured to weaken the influence on the electronic device 2000B in three ways, one is to weaken the influence of the magnetic attraction limiting element 31 on the electronic device 2000B, the other is to weaken the influence of the magnetic attraction limiting element 32 on the electronic device 2000B, and the other is to weaken the magnetic attraction limiting element 31 and the magnetic attraction self element 32 at the same time.

How to weaken the influence of the position limiting magnetic attraction piece 31 on the electronic device 2000B is described in detail above, and is not described herein again.

In the present embodiment, the charging platform 1000 further includes the shielding element 70, wherein the shielding element 70 is disposed on the charging platform main body 10 and the shielding element 70 has an operating state and an idle state, and the shielding element 70 is operably switched between the operating state and the idle state.

In the working state, the shielding element 70 can shield at least a part of the magnetic field of the self-magnetic attraction element 32, in the idle state, the shielding element 70 can weaken the shielding of the self-magnetic attraction element 32, and when the shielding element 70 is changed from the working state to the idle state, the charging platform 1000 is changed from the lamp using state to the electronic device using state.

In other words, in the present embodiment, the shielding member 70 serves as a shielding function for the self-attracting member 32. In another embodiment of the present invention, the shielding element 70 can shield the position-limiting magnetic attraction element 31. In another embodiment of the present invention, the shielding element 70 can be for the magnetic attraction element 32 and the position-limiting magnetic attraction element 31 can simultaneously play a shielding role, for example, the shielding element 70 is disposed between the magnetic attraction element 32 and the receiving surface 101, and shields the magnetic attraction element 32 while shielding the position-limiting magnetic attraction element 31.

In this embodiment, the shielding element 70 may be disposed between the position-limiting magnetic element 31 and the self-magnetic element 32.

The shielding element 70 may be an electromagnetic shielding element, when the shielding element 70 is powered on, the shielding element 70 may play a shielding role, the shielding element 70 is in the working state, when the shielding element 70 is powered off, the shielding element 70 may not play a shielding role with respect to the self-magnetic attracting element 32, and the shielding element 70 is in the idle state.

In another embodiment of the present invention, the shielding member 70 is movably installed on the charging platform main body 10, when the shielding member 70 is movable to move towards a position away from the magnetic attracting member 32, the shielding member 70 is moved from the working state towards the idle state. The charging platform 1000 is changed from the electronic device usage state to the light fixture 2000A user state.

Further, the shielding member 70 may be pushed to be movably mounted to the charging platform main body 10, or may be rotated to be movably mounted to the charging platform 1000.

It is understood that, in the present embodiment, when the electronic device 2000B is put on the wall, the electronic device is held fixed to the charging platform 1000 by the supporting member 41. It will be appreciated that when the electronic device 2000B is configured with a magnetically engaging member, the mounting may be accomplished by the magnetically engaging member without the aid of the support member 41.

Referring to fig. 12A and 12B, the charging platform 1000 according to another preferred embodiment of the present invention is illustrated.

In this embodiment, the magnetic attracting element 32 is movably disposed on the charging platform main body 10 and is adapted to magnetically attract the mating element, and when the magnetic attracting element 32 is operated to move to a distance from the receiving surface 101 of the charging platform 1000, the charging platform 1000 is changed from the light-fixture use state to the electronic device use state.

In this embodiment, the charging platform 1000 further includes a magnetic attraction mounting member 51A, wherein the magnetic attraction 32 is mounted on the magnetic attraction mounting member 51A, and the magnetic attraction mounting member 51A is disposed on the charging platform main body 10.

In this embodiment, the self-magnetic attraction mounting member 51A of the charging platform 1000 is movable to be movably connected to the charging platform main body 10.

In detail, the magnetic attraction member 32 is disposed on the magnetic attraction member mounting member 51A and the magnetic attraction member mounting member 51A is movably disposed on the charging platform main body 10.

The charging platform body 10 forms a chute 104A, wherein the magnetically attracting member mounting member 51A is received in the chute 104A and is pushed to be movably received in the chute 104A.

When the self-magnetic attraction piece mounting member 51A is received in the sliding slot 104A and the self-magnetic attraction piece 32 disposed on the self-magnetic attraction piece mounting member 51A is located at a desired position, so that the self-magnetic attraction piece 32 and the sending coil 20 of the charging platform 1000 maintain a predetermined position, the charging platform 1000 is in the lamp usage state, and when the lamp 2000A is placed on the charging platform 1000, the charging platform 1000 is on the wall and magnetically attracted to the wall under the action of the self-magnetic attraction piece 32 and the wall.

When the user desires that the charging platform 1000 is changed to the electronic device using state when the light fixture is in the light fixture using state, the self-magnetic attraction element 32 is away from the receiving surface 101 by pushing the self-magnetic attraction element mounting member 51A along the sliding slot 104A, so that the influence of the self-magnetic attraction element 32 on the electronic device 2000B on the receiving surface 101 is reduced.

Further, in the present embodiment, the number of the self-magnetic-element mounting members 51A is two, and each of the self-magnetic-element mounting members 51A is provided with one self-magnetic element 32.

Two when the piece installed part 51A is inhaled from magnetism and is moved to the laminating in opposite directions, charging platform 1000 is in lamps and lanterns user state. When the two magnetic attraction pieces 51A move back to be away from the sending coil 20, the charging platform 1000 changes from the lamp use state to the electronic device use state.

It is understood that similar to the magnetic restraining element 31, the magnetic self-attracting element 32 may be movably mounted to the charging platform body 10 in other manners, for example, referring to fig. 13A and 13B, the magnetic self-attracting element 32 is rotatably and movably mounted to the charging platform body 10. In detail, the magnetic attachment member 51A is mounted to the charging platform body 10 in such a way that the magnetic attachment member can be formed at an included angle by the charging platform body 10 and the magnetic attachment member 51A can be rotated relative to the charging platform 1000 to change the included angle between the magnetic attachment member 51A and the charging platform body 10. The self-attracting element 32 is mounted to the charging platform body 10.

Referring to fig. 14A and 14B, the self-attracting member 32 is rotatably mounted to the charging platform main body 10. In detail, both ends of the magnetic attraction mounting member 51A are respectively mounted on the charging platform main body 10, the magnetic attraction mounting member 51A is rotatably mounted on the charging platform main body 10 around an axis, and the magnetic attraction member 32 is disposed on the magnetic attraction mounting member 51A and is rotatable together with the magnetic attraction mounting member 51A. When the magnetic attraction piece 32 rotates in a direction away from the receiving surface 101, the charging platform 1000 changes to the use state of the electronic device, and when the magnetic attraction piece 32 rotates in a direction close to the receiving surface 101, the charging platform 1000 changes to the use state of the lamp.

Referring to fig. 15A and 15B, the self-magnetic-attracting element 32 has a high magnetic state and a low magnetic state, the magnetic field strength of the self-magnetic-attracting element 32 in the high magnetic state is greater than the magnetic field strength of the charging magnetic-attracting element in the low magnetic state, and when the self-magnetic-attracting element 32 is controlled to change from the high magnetic state to the low magnetic state, the charging platform 1000 changes from the lamp use state to the electronic device use state. Alternatively, the self-magnetic attraction element 32 may have a magnetic state and a non-magnetic state, the self-magnetic attraction element 32 generates a magnetic field in the magnetic state, the self-magnetic attraction element 32 stops generating the magnetic field in the non-magnetic state, and when the self-magnetic attraction element 32 is controlled by the control element 60 to change from the magnetic state to the non-magnetic state, the charging platform 1000 changes from the lamp use state to the electronic device use state.

Further, it is understood that the charging platform 1000 can supply power to the electronic device 2000B in a wired manner. When the electronic device 2000B is placed on the receiving surface 101 of the charging platform 1000 in a wired power supply manner to be powered, the influence of the magnetic attraction unit 30 of the charging platform 1000 on the electronic device 2000B can also be reduced.

Referring to fig. 16, the charging platform 1000 according to another preferred embodiment of the present invention is illustrated.

In this embodiment, the number of the transmitting coils 20 of the charging platform 1000 is two, but may be three or more.

The charging platform 1000 provides two charging areas for respectively supplying power to two of the power demand devices 2000, one of the power demand devices 2000 may be a lamp 2000A, and the other power demand device may be an electronic device 2000B.

Further, one of the transmitting coils 20 may correspond to a lamp 2000A, and the other transmitting coil may correspond to a mobile phone or a lamp 2000A.

In detail, the position limiting magnetic attraction member 31 is disposed around the transmitting coil 20 to position the lamp 2000A. The holder 41 is disposed around one of the transmitting coils 20 to hold the electronic device 2000B. The supporting member 41 is not disposed in one of the charging areas, which is available for charging the lamp 2000A or the electronic device 2000B, and when the electronic device is on the wall, the electronic device not equipped with the magnetic attraction mating member cannot be powered. For another charging area, the supporting member 41 is provided, and this charging area can be used for charging the light fixture 2000A or the electronic device 2000B, regardless of whether the charging platform 1000 is horizontally placed or hung on a wall.

According to another aspect of the present invention, the present invention provides a working method of the charging platform 1000, wherein the working method includes the following steps:

operating the charging platform 1000 to switch between the resting use state and the upper wall use state to power the power demand device, which may be selected as a light fixture or an electronic device, in the holding use state, the light fixture or the electronic device is selectively held on the receiving surface 101 of the charging platform 1000 and aligned with the transmitting coil 20 to be powered, in the upper wall using state, if the power-requiring device is selected as the lamp, the lamp is hung and held outside the receiving surface 101 through the magnetic attraction action of the magnetic attraction matching piece and the limiting magnetic attraction piece 31 arranged on the charging platform 1000, if the power demand device is selected as the electronic device, the charging platform 1000 can form the holding space 100, the electronic device is held in the holding space 100 to be aligned with the transmitting coil 20 to be powered.

According to at least one embodiment of the present invention, the holding space 100 is formed by the movable support 41.

According to at least one embodiment of the present invention, one of the supporting members 41 is installed on the charging platform 1000 to form one of the holding spaces 100 between the supporting member 41 and the charging platform 1000.

According to at least one embodiment of the present invention, in the above method, the supporting member 41 has a closed state and an open state, in the closed state, the supporting member 41 is attached to the charging platform main body 10 and is limited to the charging platform main body 10, in the open state, the supporting member 1 is movably connected to the charging platform main body 10 to form the holding space 100 between the supporting member 41 and the charging platform main body 10, and the supporting member 41 is operable to be changed between the closed state and the open state.

According to at least one embodiment of the present invention, in the above method, the magnetic attraction strength of the position-limiting magnetic attraction element 31 on the receiving surface 101 is allowed to be reduced so that the charging platform 1000 can be switched between a lamp use state in which the lamp is adapted to be positioned on the receiving surface 101 and aligned with the sending coil 20 to be powered through the magnetic attraction effect of the position-limiting magnetic attraction element 31 and the magnetic attraction mating element, and an electronic device use state in which the electronic device is positioned on the receiving surface 101 and aligned with the sending coil 20 to be powered.

According to at least one embodiment of the present invention, in the above method, the formation of the holding space 100 and the change of the magnetic attraction strength of the position-limiting magnetic attraction member 31 are linked with each other, when the holding space 100 is formed, the magnetic attraction strength of the position-limiting magnetic attraction member 31 is reduced at the same time, and can be weakened or substantially disappear. According to another aspect of the present invention, the present invention provides a working method of the charging platform 1000, wherein the working method includes the following steps:

transmitting power to the power demand device 2000 disposed on the receiving surface 101 of the charging platform 1000, wherein the charging platform 1000 is selectively switched between the light fixture using state and the electronic device using state, in the light fixture using state, the light fixture 2000A is adapted to be positioned on the receiving surface 101 of the charging platform 1000 and aligned with the sending coil 20 of the charging platform 1000 to be powered by the magnetic attraction of at least part of the magnetic attraction unit 30 of the charging platform 1000 and the magnetic attraction matching element disposed on the light fixture 2000A, in the electronic device using state, the magnetic attraction of the magnetic attraction unit 30 is weakened to reduce the influence on the electronic components in the power demand device 2000, and the power demand device 2000 is adapted to be disposed on the receiving surface 101 of the charging platform 1000 to be powered.

According to an embodiment of the present invention, in the above method, the magnetic attraction limiting element 31 of the magnetic attraction unit 30 is movably disposed in the charging platform main body 10 and is adapted to magnetically attract with the magnetic attraction limiting element, and when the magnetic attraction limiting element 31 is operated to move to the charging platform 1000, the distance of the receiving surface 101 is enlarged, and the charging platform 1000 is changed from the lamp usage state toward the electronic device usage state.

According to an embodiment of the present invention, the power demand device 2000 receives the electric energy from the charging platform 1000 by means of radio transmission.

According to an embodiment of the present invention, in the above method, the magnetic attraction member 32 of the magnetic attraction unit 30 is movably disposed on the charging platform main body 10 and is adapted to be attracted to a wall that can be magnetically attracted, so that the charging platform 1000 can be suspended on the wall, wherein when the magnetic attraction member 32 is operated to move to the distance from the receiving surface 101 of the charging platform 1000, the charging platform 1000 changes from the lamp usage state to the electronic device usage state.

According to an embodiment of the present invention, in the above method, the magnetic attraction element 32 of the magnetic attraction unit 30 is disposed on the charging platform main body 10 and is suitable to be attracted to a wall that can be magnetically attracted, so that the charging platform 1000 can be suspended on the wall, wherein when the shielding element 70 shields the influence of the magnetic attraction element 32 on the power demand equipment 2000, the charging platform 1000 changes from the lamp using state to the electronic equipment using state, and those skilled in the art will understand that the above description and the drawings illustrate embodiments of the present invention by way of example only and not limitation. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (27)

1. A charging platform adapted to power a power requiring device, wherein the power requiring device is optionally a wireless rechargeable light fixture or an electronic device, wherein the light fixture is provided with at least one magnetically attractive mating member, comprising:

the charging platform comprises a charging platform main body, a charging platform shell and an electricity storage unit, wherein the electricity storage unit is arranged in the charging platform shell;

a transmitting coil, wherein the transmitting coil is provided to the charging platform body and is electrically connectable to the power storage unit; and

a magnetic unit, wherein the magnetic unit includes at least a position-limiting magnetic component, wherein the position-limiting magnetic component is disposed on the charging platform and keeps a predetermined distance from the transmitting coil, at least a portion of the position-limiting magnetic component is adapted to magnetically attract the magnetic mating component of the lamp to position the lamp to align with a receiving coil of the lamp and the transmitting coil of the charging platform, wherein the charging platform has a resting use state in which the electronic device or the lamp is selectively supported on a supporting surface of the charging platform body and aligned with the transmitting coil to be powered, and an upper wall use state in which the lamp is suspended outside the supporting surface of the charging platform body by the magnetic mating component and the position-limiting magnetic component if the power demand device is selected as the lamp, if the power demanding device is selected as the electronic device, the charging platform can form a holding space in which the electronic device is held to be aligned with the transmitting coil to be powered.

2. The charging platform of claim 1, further comprising a support, wherein the support is configured to be mounted to the charging platform body to form the holding space with the receiving surface of the charging platform body.

3. The charging platform of claim 1, further comprising a support member, wherein the support member is movably coupled to the charging platform body, and the holding space is formed between the support member and the charging platform body when the support member is moved to a predetermined distance from the receiving surface of the charging platform body.

4. The charging platform of claim 3, wherein the support has a closed position in which the support is attached to and retained by the charging platform body and an open position in which the support is movably coupled to the charging platform body to form the holding space between the support and the charging platform body, the support being operable to transition between the closed position and the open position.

5. The charging platform of claim 1, wherein the spacing magnetic attachment is at a distance ranging from 7mm to 8mm from the transmitting coil.

6. The charging platform of claim 1, further comprising a support, wherein the support comprises at least two support arms, wherein the holding space is formed between two of the support arms, and at least one of the support arms is movably disposed on the charging platform body to enable the size of the holding space to be adjusted.

7. The charging platform as claimed in claim 1, further comprising a support member, wherein the electronic device is pressed to fit the receiving surface by the support member, or the electronic device is supported and held to fit the receiving surface by the support member.

8. The charging platform according to any one of claims 1 to 7, wherein the magnetic attraction strength of the magnetic attraction unit at the receiving surface position allows to be reduced so that the charging platform can be changed between a light fixture use state in which the light fixture is adapted to be positioned on the receiving surface and aligned with the transmitting coil to be powered by the magnetic attraction of the position limiting magnetic attraction piece and the magnetic attraction fitting piece, and an electronic device use state in which the electronic device is placed on the receiving surface and aligned with the transmitting coil to be powered.

9. The charging platform according to claim 8, wherein the formation of the holding space and the variation of the magnetic attraction strength of the magnetic attraction limiting element are linked, and when the holding space is formed, the magnetic attraction strength of the magnetic attraction limiting element is weakened at the same time.

10. The charging platform as claimed in claim 8, wherein the magnetic attraction limiting element is movably disposed on the charging platform main body and adapted to magnetically attract the magnetic attraction engaging element, and when the magnetic attraction limiting element is operated to move to a distance from the receiving surface of the charging platform, the charging platform is transformed from the light fixture usage state to the electronic device usage state.

11. The charging platform of claim 10, further comprising a magnetic-attracting-element-limiting element mounting member, wherein the magnetic-attracting-element-limiting element mounting member is rotatably mounted on the charging platform body and the magnetic-attracting-element-limiting element is mounted on the magnetic-attracting-element-limiting element mounting member, the magnetic-attracting-element-limiting element has a working surface and a free surface, when the working surface and the receiving surface are on the same side, the magnetic field intensity of the magnetic-attracting-element-limiting element is maximum at the position of the receiving surface, the charging platform is in the operating state of the lamp, when the magnetic-attracting-element-limiting element is movable to the free surface and the receiving surface are on the same side, the magnetic field intensity of the magnetic-attracting-element-limiting element is reduced at the position of the receiving surface, and the.

12. The charging platform of claim 8, wherein the charging platform further comprises a control member, the magnetically attractive unit being controllably connected to the control member, wherein the magnetically attractive unit has a high magnetic state and a low magnetic state, the magnetic field strength of the magnetically attractive unit in the high magnetic state is greater than the magnetic field strength of the magnetically attractive unit in the low magnetic state, and the charging platform changes from the light fixture use state to the electronic device use state when the magnetically attractive unit is controlled by the control member to change from the high magnetic state to the low magnetic state.

13. The charging platform of claim 8, wherein the charging platform further comprises a control member, wherein the magnetic unit is controllably connected to the control member, wherein the magnetic unit has a magnetic state and a non-magnetic state, the magnetic unit generates a magnetic field in the magnetic state, the magnetic unit stops generating the magnetic field in the non-magnetic state, and the charging platform changes from the light fixture use state to the electronic device use state when the magnetic unit is controlled by the control member to change from the magnetic state to the non-magnetic state.

14. The charging platform of claim 8, wherein the charging platform further comprises a shield disposed on the charging platform body, wherein the shield has an operating state and an idle state and is operable to transition between the operating state and the idle state, wherein in the operating state, the shield is capable of shielding at least a portion of the magnetic field of the magnetic attraction unit, in the idle state, the shield is weakened with respect to the magnetic attraction unit, and when the shield transitions from the operating state to the idle state, the charging platform transitions from the light fixture use state to the electronic device use state.

15. The charging platform of claim 8, wherein the magnetic unit further comprises a self-attracting element, wherein the self-attracting element is disposed on the charging platform body to magnetically attract a wall capable of being attracted to the magnetic unit on a mounting surface of the charging platform, so that the charging platform can be suspended from the wall, and the position-limiting magnetic element and the self-attracting element are respectively disposed on two opposite sides.

16. The charging platform according to any one of claims 1 to 7, wherein the distance from the transmitting coil of the charging platform to the receiving coil of the power requiring device is in the range of 2mm to 3 mm.

17. The charging platform of claim 1, wherein the charging platform further comprises a support member, wherein the support member is movably coupled to the charging platform body, the support member is movable to a predetermined distance from the receiving surface of the charging platform body, the retaining space is formed between the support member and the charging platform body, wherein the support member has a closed position in which the support member is attached to the charging platform body and is retained to the charging platform body and an open position in which the support member is attached to the charging platform body and is retained to the charging platform body, the supporting part is movably connected with the charging platform main body to form the holding space between the supporting part and the charging platform main body, the supporting part is operable to be changed between the closed state and the open state, at least part of the surface of the supporting part and at least part of the surface of the charging platform main body which are positioned on the same side are positioned on the same plane to provide a flat supporting surface for the power demand equipment, wherein the magnetic attraction strength of the magnetic attraction unit on the position of the supporting surface is allowed to be reduced so as to change the charging platform between a lamp using state and an electronic equipment using state, in the lamp using state, the lamp is suitable to be positioned on the supporting surface through the magnetic attraction effect of the limiting magnetic attraction part and the magnetic attraction matching part and is aligned with the sending coil to be powered, in the electronic equipment using state, the electronic device is placed on the receiving surface and aligned with the sending coil to be powered, wherein the limiting magnetic attraction piece is movably arranged on the charging platform main body and is suitable for being magnetically attracted with the magnetic attraction matching piece, and when the limiting magnetic attraction piece is operated to move to a distance from the receiving surface of the charging platform to be enlarged, the charging platform is changed from a lamp use state to an electronic device use state, the electronic device further comprises a limiting magnetic attraction piece mounting piece which is rotatably arranged on the charging platform main body and is arranged on the limiting magnetic attraction piece mounting piece, the limiting magnetic attraction piece is provided with a working surface and an idle surface, and when the working surface and the receiving surface are positioned on the same side, the magnetic field intensity of the limiting magnetic attraction piece on the receiving surface is maximum, the charging platform is in the lamp using state, when the limiting magnetic attraction piece moves to the idle surface and the receiving surface at the same side, the magnetic field intensity of the limiting magnetic attraction piece at the position of the receiving surface is reduced, the charging platform is in the electronic device using state, wherein the charging platform further comprises a limiting magnetic attraction piece control piece, wherein the limiting magnetic attraction piece mounting piece is controllably connected to the limiting magnetic attraction piece control piece, the limiting magnetic attraction piece control piece is mounted on the charging platform main body, wherein the limiting magnetic attraction piece control piece comprises a pushing member, a push rod, a rotating rod and an elastic support piece, the rotating rod is connected to the limiting magnetic attraction piece mounting piece, the push rod is supported on the elastic support piece in the axial direction and supports the rotating rod in the axial direction, and the rotating rod forms an inclined guide chute, one end of the pushing component is abutted to the rotating rod and located in the radial direction of the rotating rod, the other end of the pushing component is exposed for operation, when the pushing component moves along the guide chute, the ejector rod is kept abutted to the rotating rod under the support of the elastic support piece, and the rotating rod rotates under the action of the pushing component and the ejector rod, so that the limiting magnetic suction mounting component rotates to transform the working surface and the idle surface.

18. A charging platform adapted to power a power requiring device, wherein the power requiring device is optionally a wireless rechargeable light fixture or an electronic device, wherein the light fixture is provided with at least one magnetically attractive mating member, comprising:

the charging platform comprises a charging platform main body, a charging platform shell and an electricity storage unit, wherein the electricity storage unit is arranged in the charging platform shell;

a transmitting coil, wherein the transmitting coil is provided to the charging platform body and is electrically connectable to the power storage unit; and

at least one position-limiting magnetic attraction element, wherein the position-limiting magnetic attraction element is disposed on the charging platform main body and keeps a predetermined distance from the transmitting coil, at least a portion of the position-limiting magnetic attraction element is adapted to magnetically attract the magnetic attraction mating element of the lamp to position the lamp to align with a receiving coil of the lamp and the transmitting coil of the charging platform, wherein the charging platform has an electronic device use state and a lamp use state, in the lamp use state, the lamp is placed on a receiving surface of the charging platform main body and aligned with the transmitting coil through the positioning effect of the position-limiting magnetic attraction element and the magnetic attraction mating element to be powered, in the electronic device use state, the electronic device is aligned with the transmitting coil to be powered, and when the charging platform is mounted on the upper wall, the charging platform can form a holding space to hold the electronic device in the holding space and aligned with the transmitting wire The coil is powered.

19. A charging platform adapted to power a power requiring device, wherein the power requiring device is optionally a wireless rechargeable light fixture or an electronic device, wherein the light fixture is provided with at least one magnetically attractive mating member, comprising:

the charging platform comprises a charging platform main body, a charging platform shell and an electricity storage unit, wherein the electricity storage unit is arranged in the charging platform shell;

a transmitting coil, wherein the transmitting coil is provided to the charging platform body and is electrically connectable to the power storage unit; and

a magnetic unit, wherein the magnetic unit is disposed on the charging platform body and keeps a predetermined distance from the transmitting coil, at least part of the magnetic attraction unit is suitable for being mutually magnetically attracted with the magnetic attraction matching piece of the lamp to position the lamp to be aligned with the sending coil, wherein the charging platform has a lamp use state and an electronic device use state, and in the lamp use state, the lamp is suitable for being positioned on a bearing surface of the charging platform through at least part of the magnetic attraction unit and the magnetic attraction action of the magnetic attraction matching piece and is aligned to the sending coil to be powered, in the using state of the electronic equipment, the magnetic attraction effect of the magnetic attraction unit is weakened so that the electronic components in the power demand equipment can work normally, and the power demand equipment is suitable for being placed on the bearing surface of the charging platform to be powered.

20. The charging platform of claim 19, wherein if the power-requiring device is selected as the electronic device, the electronic device is a cordless charging device and is adapted to be placed on the receiving surface in such a way as to be aligned with the transmitting coil to be powered when the charging platform is in the electronic device use state.

21. The charging platform as claimed in claim 19, wherein the magnetic attraction unit comprises at least one magnetic attraction limiting element, wherein the magnetic attraction limiting element is movably disposed on the charging platform main body and is adapted to magnetically attract the magnetic attraction engaging element, and when the magnetic attraction limiting element is operated to move to a distance from the receiving surface of the charging platform, the charging platform is transformed from the light fixture usage state to the electronic device usage state.

22. The charging platform of claim 21, further comprising a magnetic-attracting-element-limiting element mounting element, wherein the magnetic-attracting-element-limiting element mounting element is rotatably mounted on the charging platform body and the magnetic-attracting-element-limiting element is mounted on the magnetic-attracting-element-limiting element mounting element, the magnetic-attracting-element-limiting element has a working surface and a free surface, when the working surface and the receiving surface are on the same side, the magnetic field intensity of the magnetic-attracting-element-limiting element is maximum at the position of the receiving surface, the charging platform is in the operating state of the lamp, when the magnetic-attracting-element-limiting element is movable to the free surface and the receiving surface are on the same side, the magnetic field intensity of the magnetic-attracting-element-limiting element is reduced at the position of the receiving surface, and the.

23. The charging platform of claim 19, wherein the charging platform further comprises a control member, the magnetically attractive unit being controllably connected to the control member, wherein the magnetically attractive unit has a high magnetic state and a low magnetic state, the magnetic field strength of the magnetically attractive unit in the high magnetic state is greater than the magnetic field strength of the magnetically attractive unit in the low magnetic state, and the charging platform changes from the light fixture use state to the electronic device use state when the magnetically attractive unit is controlled by the control member to change from the high magnetic state to the low magnetic state.

24. The charging platform of claim 19, wherein the charging platform further comprises a control member, wherein the magnetic unit is controllably connected to the control member, wherein the magnetic unit has a magnetic state and a non-magnetic state, the magnetic unit generates a magnetic field in the magnetic state, the magnetic unit stops generating the magnetic field in the non-magnetic state, and the charging platform changes from the light fixture use state to the electronic device use state when the magnetic unit is controlled by the control member to change from the magnetic state to the non-magnetic state.

25. The charging platform of claim 19, wherein the charging platform further comprises a shield disposed on the charging platform body, wherein the shield has an operating state and an idle state and is operable to transition between the operating state and the idle state, wherein in the operating state, the shield is capable of shielding at least a portion of the magnetic field of the magnetic attraction unit, in the idle state, the shield is weakened with respect to the magnetic attraction unit, and when the shield transitions from the operating state to the idle state, the charging platform transitions from the light fixture use state to the electronic device use state.

26. The charging platform as claimed in any one of claims 19 to 25, wherein the magnetic attraction unit comprises at least one magnetic attraction limiting element, and the magnetic attraction limiting element is disposed on the charging platform body and adapted to magnetically attract with the magnetic attraction mating element.

27. The charging platform according to any one of claims 19 to 25, wherein the magnetic attraction unit comprises a position-limiting magnetic attraction member and at least one self-magnetic attraction member, wherein the position-limiting magnetic attraction member is disposed on the charging platform to magnetically attract the magnetic attraction mating member on the receiving surface of the charging platform, wherein the self-magnetic attraction member is disposed on the charging platform body to magnetically attract a wall capable of being magnetically attracted on a mounting surface of the charging platform, so that the charging platform can be suspended on the wall, and the position-limiting magnetic attraction member and the self-magnetic attraction member are respectively disposed on two opposite sides.

Images