CN210640698U - Wireless charging device and wireless charging lighting system - Google Patents

Abstract

The utility model provides a wireless charging device and wireless lighting system that charges, wherein wireless lighting system that charges includes a wireless charging device and an at least lamps and lanterns, wherein wireless charging device with wireless mode to lamps and lanterns charge. The wireless charging device comprises a charging main body and at least one magnetic suction device, wherein the magnetic suction device is movably arranged in the charging main body, and the lamp is adsorbed by the magnetic suction device and attached to the charging main body.

Description

Wireless charging device and wireless charging lighting system

Technical Field

The utility model relates to a wireless field of charging especially relates to a wireless charging device and wireless lighting system that charges.

Background

When the electric energy is used up, the rechargeable lamp needs to be charged by a charger or a power plug of the lamp is connected to a power supply for charging. The charging mode of the prior art rechargeable lamp mostly adopts a wired electric contact type charging mode, the electric contact type charging mode is complicated to operate, and great danger exists in the charging process.

The wireless charging technology helps to solve the above problems, and wireless charging is to transmit energy between a charger and a power-using device through a magnetic field, such as electromagnetic induction type wireless charging or magnetic resonance type wireless charging, wherein the wireless charger and the power-using device are not connected through a wire, so that no conductive contact is exposed on both the charger and the power-using device. When the wireless charging lamp is charged, the lamp needs to be accurately positioned at a specific position of the charging device, and if the lamp and the charging device are staggered, the charging efficiency is low, and even charging cannot be performed. In order to keep the lamp aligned with the wireless charging device during charging, the wireless charging lamp in the prior art can only be placed flat above the wireless charging device. If the lamp is placed obliquely, the position of the lamp is unstable, which may cause the lamp to be separated from the charging device, thereby affecting the charging efficiency of the lamp.

In order to avoid unstable placement and facilitate accurate placement of the lamp during charging, a magnet is usually installed below the lamp, and the lamp is adsorbed above the charging device through the action of magnetic adsorption. However, such a magnetic adsorption lamp in the prior art, especially a magnetic adsorption working lamp, can adsorb iron foreign matters such as iron filings and iron pieces when in use, and is difficult to remove. If the lamp with the sundries is placed in the wireless charging device for charging, the distance between the lamp and the wireless charging device is increased, the transmission efficiency of image electric energy is improved, and even the lamp cannot be charged. On the other hand, after the wireless charging device in the prior art is charged, the lamp and the wireless charging device are difficult to separate due to the large magnetic adsorption effect. When the lamp is taken up from the charging device, because the magnet is adsorbed together, the user needs the other hand to press the charging device while taking up the lamp with one hand, which brings inconvenience to the user.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main advantage lies in providing a wireless charging device and wireless lighting system that charges, wherein wireless charging device makes with the mode of magnetism the lighting system's at least lamps and lanterns in attached in wireless charging device is favorable to fixing lamps and lanterns.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the wireless charging device adsorbs the lamp, so that the lamp is attached in the aligned manner in the wireless charging device, so as to be favorable to the wireless charging device is right the lamp charges.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the lighting system is charging, the lamp is absorbed in the wireless charging device, and the wireless charging device fixedly holds the lamp, so that the lighting system can be charged on a vertical surface or an inclined surface. That is, the wireless charging device of the lighting system can be disposed on a vertical surface or an inclined surface, such as a wall surface, wherein the wireless charging device adsorbs the lamp when charging to maintain the charging state of the lamp.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the wireless charging device includes an at least magnetic attraction device, wherein the magnetic attraction device includes two at least magnetic attraction units, the magnetic attraction units are arranged at intervals, thereby the magnetic attraction units attract lamps and lanterns and adjustment the position of lamps and lanterns, so that the lamps and lanterns are attached to the wireless charging device in a counterpoint manner, thereby avoiding the slow charging speed or unable charging caused by misplacing.

Another advantage of the utility model is that a wireless charging device and wireless lighting system that charges is provided, wherein the base of lamps and lanterns be equipped with corresponding to two magnetism of inhaling the unit are inhaled the metal unit, for example can quilt such as iron plate, iron-based metal alloy magnetism inhale the metal that the unit attracts, wherein magnetism is inhaled the metal unit and is adsorbed in counterpointing the magnetism is inhaled the unit, through magnetism inhale the unit with magnetism is inhaled counterpointing of inhaling the metal unit and is adsorbed, adjusts automatically lamps and lanterns are adsorbed in wireless charging device's position, thereby improve lamps and lanterns counterpoint accuracy improves the charging efficiency of lamps and lanterns.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the magnetic attraction device is movably disposed in a charging main body of the wireless charging device, through operation the magnetic attraction device, so that the lamp is attracted to the wireless charging device and from the wireless charging device is separated.

Another advantage of the present invention is to provide a wireless charging device and wireless charging lighting system, wherein the magnetism is inhaled the device and is rotationally set up in the main part that charges, wherein the magnetism is inhaled the unit set up in the one side of magnetism is inhaled the device, so that the one side of magnetism is inhaled the unit has magnetism, and the another side does not have magnetism, works as the magnetism is inhaled the device and is rotated, makes the magnetism inhale the unit orientation in during the lamps and lanterns, magnetism is inhaled the device and is adsorbed lamps and lanterns, works as the magnetism is inhaled the unit is inhaled the magnetism and is adjusted orientation in during the lamps and lanterns, so that lamps and lanterns with the separation of wireless charging device.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the wireless charging device is right when the lamp is charged, the lamp can be automatically adjusted with the position of the wireless charging device, which is convenient for users to use.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the wireless charging device is rotated or rotated the magnetic attraction device is realized the lamp with the main part of charging with the counterpoint and the separation of lamp, easy operation, the good reliability.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the magnetic attraction device is movably disposed in the charging main body, by pressing the magnetic attraction device can be used with the lamp and the magnetic attraction device is separated, and is convenient for users to operate and use.

Another advantage of the present invention is to provide a wireless charging device and a wireless charging lighting system, wherein the wireless charging device further includes at least one prompting device, when the wireless charging device is set to the lamp is charged, by the prompting device prompts the action status of the wireless charging device.

The other advantages and features of the invention will be fully apparent from the following detailed description and realized by means of the instruments and combinations particularly pointed out in the appended claims.

According to the utility model discloses an aspect can realize aforementioned purpose and other purposes and advantage the utility model discloses a wireless charging device is suitable for to a lamps and lanterns charge wirelessly, include:

a charging body; and

at least one magnetic attraction device, wherein the magnetic attraction device is movably arranged in the charging main body, and the lamp is adsorbed by the magnetic attraction device and attached to the charging main body.

According to the utility model discloses an embodiment, the device is inhaled to magnetism is rotationally set up in the main part that charges.

According to an embodiment of the present invention, the magnetic attraction device is movably disposed in the charging main body.

According to an embodiment of the utility model, magnetism is inhaled the device and is included one and bear device, an at least magnetism unit and a rotation axis of inhaling, magnetism inhale the unit set up in bear the device, wherein bear the device quilt the rotation axis rotationally connect in the main part charges, by bear the device drive magnetism inhales the unit and rotates.

According to an embodiment of the utility model, magnetism is inhaled the device and is further had a magnetism and inhale face and a non-magnetism and inhale the face, wherein the magnetism is inhaled the unit and is embedded into to bear the device, the magnetism is inhaled the unit and is in it forms to bear the embedding end of device the magnetism is inhaled the face, the other end that bears the device forms the non-magnetism is inhaled the face, through rotating magnetism is inhaled the device adjustment the magnetism is inhaled the face with the orientation of non-magnetism is inhaled the face.

According to an embodiment of the present invention, the magnetic attraction device further has a magnetic attraction surface and a non-magnetic attraction surface adjacent to each other, so as to drive the magnetic attraction device to adjust the magnetic attraction surface and the non-magnetic attraction surface relative to the position of the charging main body.

According to an embodiment of the utility model, the device is inhaled to magnetism further includes an at least rotatory hasp, wherein rotatory hasp lockable bear the rotation angle of device.

According to the utility model discloses an embodiment, magnetism is inhaled the device and is included one and bear device, an at least magnetism and inhale unit and a rotation axis, wherein magnetism inhale the unit set up in bear the device, the rotation axis is connected bear the device in the upper end of the main part that charges, wherein it drives to bear the device magnetism inhale the unit based on the rotation axis swings from top to bottom.

According to the utility model discloses an embodiment, magnetism is inhaled the unit and is embedded into bear the device, wherein through the adjustment bear the swing angle of device, adjust magnetism is inhaled the device and is right the absorption effort of lamps and lanterns.

According to an embodiment of the present invention, the magnetic unit further comprises at least one supporting element, wherein the supporting element is disposed below the carrying device, thereby supporting the carrying device upward by the supporting element.

According to the utility model discloses an embodiment, the device is inhaled to magnetism the quantity of unit is two, the unit sets up with mutual interval is inhaled to magnetism.

According to the utility model discloses an embodiment, the main part of charging includes a casing, an at least emission module, a power source and a circuit board, wherein circuit board electrical connection power source in emission module, wherein emission module is attached in the casing is inboard, emission module with magnetism inhales the interval more than or equal to 7.5mm of device.

According to an embodiment of the present invention, the housing includes an upper housing, a lower housing and a mounting groove formed by the upper housing and the lower housing, wherein the housing holds the magnetic attraction device movably in the mounting groove.

According to an embodiment of the present invention, the housing further has at least one mounting hole through which the wireless charging device is fixedly mounted to the attached surface.

According to the utility model discloses an embodiment, the main part of charging further includes a suggestion device, wherein the suggestion device connect with communicating in the main part of charging, the suggestion device is based on the work information suggestion of the main part of charging wireless charging device's operating condition, the suggestion device includes an at least warning light and a bee calling organ, wherein the warning light with bee calling organ be set up in the casing go up the casing.

According to another aspect of the utility model discloses a wireless lighting system that charges is further provided, include:

the wireless charging apparatus as claimed in any of the above; and

the wireless charging device comprises at least one lamp, wherein the lamp comprises a lamp main body and at least one magnetic metal unit, the magnetic metal unit is arranged on the lamp main body, and the magnetic metal unit can be adsorbed by the magnetic device of the wireless charging device and attached to the lamp main body on the charging main body.

According to the utility model discloses an embodiment, lamps and lanterns the quantity of magnetism metal unit is two, wherein magnetism inhale metal unit be set up in each other at intervals in lamps and lanterns the lamps and lanterns main part, magnetism inhale metal unit the spacing distance with wireless charging device the spacing distance of magnetism inhale the unit is the same.

According to an embodiment of the utility model, the lamps and lanterns main part further includes a lamps and lanterns casing, an at least light source, an at least receiving module and an at least energy memory, wherein energy memory electrical connection the light source with receiving module, receiving module with electric energy storage extremely energy memory, wherein the light source set up in the lamps and lanterns casing, receiving module is attached in the inboard of lamp body casing, wherein works as lamps and lanterns by when wireless charging device charges, receiving module with interval more than or equal to 2mm between the transmitting module.

According to the utility model discloses an embodiment, lamps and lanterns the receiving module for the position of magnetism metal element is inhaled is equivalent to transmitting module for the position of magnetism unit is inhaled, wherein the unit is inhaled through absorption magnetism metal element is inhaled to magnetism, and makes receiving module to be located transmitting module.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the appended claims.

Drawings

Fig. 1A is a general schematic view of a wireless charging device according to a first preferred embodiment of the invention from a perspective.

Fig. 1B is an overall view of another perspective of a wireless charging device according to a first preferred embodiment of the present invention.

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

Fig. 3 is a schematic view of a magnetic device of the wireless charging device according to the above preferred embodiment of the invention.

Fig. 4 is a cross-sectional view of a charging body of the wireless charging device according to the above preferred embodiment of the invention.

Fig. 5A is a schematic diagram of another alternative implementation of the wireless charging device according to the above preferred embodiment of the present invention.

Fig. 5B is a magnetic attraction state diagram of the wireless charging device according to the above preferred embodiment of the present invention.

Fig. 5C is a schematic view of the wireless charging device according to the above preferred embodiment of the present invention in a non-magnetic attraction state.

Fig. 6 is a schematic diagram of another alternative implementation of the wireless charging device according to the above preferred embodiment of the present invention.

Fig. 7 is a schematic view of a magnetic attraction device according to the above-mentioned optional implementation of the wireless charging device according to the above-mentioned preferred embodiment of the present invention.

Fig. 8 is an overall schematic view of a lighting system with the wireless charging device according to the above preferred embodiment of the present invention.

Fig. 9A is an overall schematic view of a lamp of the lighting system according to the above preferred embodiment of the present invention.

Fig. 9B is an overall schematic view of another view angle of the lamps of the lighting system according to the above preferred embodiment of the present invention.

Fig. 9C is an exploded view of the lamp of the lighting system according to the above preferred embodiment of the invention.

Fig. 10A is a schematic view of a charging scene of the lighting system according to the above preferred embodiment of the present invention, which shows that the wireless charging device is installed on a wall to charge the lamp.

Fig. 10B is a schematic view of a charging scene of the lighting system according to the above preferred embodiment of the present invention, which shows the positioning connection between the lamp and the wireless charging device.

Fig. 10C is a schematic view of another charging scene of the lighting system according to the above preferred embodiment of the present invention, which shows a separation process of the lamp from the wireless charging device.

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.

Referring to fig. 1A to 8 of the drawings, a wireless charging lighting system according to a first preferred embodiment of the present invention is explained in the following description. The wireless charging lighting system comprises a wireless charging device 10 and a lamp 20, wherein the lamp 20 can be attached to the wireless charging device 10, and the lamp 20 is charged when the wireless charging device 10 is powered on. The lamp 20 is attracted by the wireless charging device 10, and the lamp 20 is charged by the wireless charging device 10. The wireless charging device 10 can be installed or placed on an inclined surface or a vertical surface, and the relative positions of the lamp 20 and the wireless charging device 10 are kept stable by the adsorption of the wireless charging device 10 on the lamp 20, so that the charging stability of the wireless charging lighting system is improved. In short, the wireless charging device 10 may be installed on a wall surface, an inclined desktop, or other irregular surface, wherein the lamp 20 is attached to the surface of the wireless charging device 10, and the lamp 20 is wirelessly charged by the wireless charging device 10.

As shown in fig. 1A to 4, the wireless charging device 10 includes a charging body 11 and at least one magnetic device 12, wherein the magnetic device 12 is disposed on the charging body 11, the lamp 20 is attracted to the charging body 11 by the magnetic device 12, and the charging body 11 wirelessly transmits power to the lamp 20 when powered on. The magnetic attraction device 12 is movably arranged in the charging main body 11, and through adjustment of the magnetic attraction device 12, the lamp 20 is convenient to be attracted to the charging main body 11 and is convenient to separate the lamp 20 from the charging main body 11. In the preferred embodiment of the present invention, the magnetic attraction device 12 is rotatably disposed in the charging body 11, and by rotating the magnetic attraction device 12, the magnetic attraction device 12 is adjusted to the relative position of the lamp 20, so that the lamp 20 is attracted to or separated from the charging body 11.

Correspondingly, the magnetic device 12 has a magnetic surface 121, at least one non-magnetic surface 122, and a rotation axis 123, wherein the magnetic surface 121 of the magnetic device 12 has a magnetic adsorption effect, which can adsorb magnetic metal materials such as iron, cobalt, and nickel, and the non-magnetic surface 122 has no adsorption effect on the magnetic materials. The magnetic attraction device 12 is rotated around the rotation axis 123, wherein the magnetic attraction surface 121 and the non-magnetic attraction surface 122 of the magnetic attraction device 12 rotate based on the rotation axis 123. When the magnetic attraction surface 121 faces the lamp 20, that is, the magnetic attraction surface 121 faces the charging direction of the charging body 11, the lamp 20 can be attracted by the magnetic attraction device 12 and attached to the charging surface of the charging body 11. When the magnetic attraction device 12 is rotated to the non-magnetic attraction surface 122 facing the lamp 20, that is, the non-magnetic attraction surface 122 faces the charging direction of the charging body 11, the lamp 20 can be separated from the surface of the charging body 11 because the non-magnetic attraction surface 122 does not have a magnetic attraction function.

Specifically, referring to fig. 1A to 4, the magnetic attraction surface 121 and the non-magnetic attraction surface 122 of the magnetic attraction device 12 correspond to each other, so that the magnetic attraction device 12 is driven to rotate around the rotation axis 123 to selectively enable one of the magnetic attraction surface 121 and the non-magnetic attraction surface 122 of the magnetic attraction device 12 to face the lamp 20, wherein when the magnetic attraction surface 121 of the magnetic attraction device 12 faces the lamp 20, the lamp 20 can be attracted to the wireless charging device 10 by the magnetic attraction device 12, and correspondingly, when the non-magnetic attraction surface 122 of the magnetic attraction device 12 faces the lamp 20, the magnetic attraction force between the lamp 20 and the wireless charging device 10 disappears, so as to conveniently separate the lamp 20 from the wireless charging device 10.

It should be noted that, the driving the magnetic attraction device 12 around the rotation axis 123 is not limited in the lighting system, for example, the magnetic attraction device 12 can be driven around the rotation axis 123 for the rotation of the wireless charging device 10 by a manual driving mode, or the magnetic attraction device 12 can be driven around the rotation axis 123 for the rotation of the wireless charging device 10 by a driving motor driving mode.

The magnetic attraction device 12 further includes at least one magnetic attraction unit 124 and a carrying device 125, wherein the magnetic attraction unit 124 is disposed on the carrying device 125, and the carrying device 125 rotates based on the rotation axis 123. The magnetic attraction unit 124 is disposed adjacent to the magnetic attraction surface 121. Preferably, the magnetic unit 124 is embedded into the carrying device 125, and the magnetic surface 121 is formed on one surface of the carrying device 125 by the magnetic unit 124, wherein the non-magnetic surface 122 is formed on the carrying device 125 corresponding to the opposite surface of the magnetic surface 121. It is understood that the positions of the magnetic attraction surface 121 and the non-magnetic attraction surface 122 of the magnetic attraction device 12 can be identified by the position of the magnetic attraction unit 124.

The magnetic unit 124 is a magnetic element made of a permanent magnetic material, such as a magnet, an alnico permanent magnetic alloy, an iron-chromium-cobalt permanent magnetic alloy, a permanent magnetic ferrite, a rare earth permanent magnetic material, a composite permanent magnetic material, and the like. It is understood that the type of the magnetic attraction unit 124 is only exemplary and not limiting, and therefore, the magnetic attraction unit 124 can also be implemented as an electromagnetic device. Preferably, in the preferred embodiment of the present invention, the magnetic unit 124 is embedded into the carrier 125, and the magnetic surface 121 of the magnetic device 12 is formed by the upper surface of the magnetic unit 124 and a surface of the carrier 125. The carrier 125 shields the magnetic attraction unit 124, so that the non-magnetic attraction surface 122 of the magnetic attraction device 12 is formed on the opposite surface of the carrier 125.

The magnetic attraction device 12 further comprises at least one rotation lock 126, wherein the rotation lock 126 controls the rotation of the carrying device 125. The rotating shaft 123 of the magnetic attraction device 12 is connected to the rotating lock 126 in a braking manner, and the rotating shaft 123 is braked by the rotating lock 126, so that the carrying device 125 is locked and the carrying device 125 is prevented from rotating. Preferably, the rotating latch 126 is disposed on the charging body 11, when the rotating latch 126 is pressed, the rotating latch 12 stops braking the rotating shaft 123, and the carrying device 125 can be rotated to adjust the positions of the magnetic attraction surface 121 and the non-magnetic attraction surface 122.

Preferably, in this preferred embodiment of the present invention, the number of the magnetic units 124 of the magnetic device 12 is two or more, wherein the magnetic units 124 are disposed at intervals, so that the magnetic units 124 can position the lamp 20, and the lamp 20 and the wireless charging device 10 are aligned, thereby improving the charging efficiency of the wireless charging device 10 to the lamp 20. In addition, by increasing the number of the magnetic units 124, the attraction force between the magnetic surface 121 of the magnetic device 12 and the lamp 20 is increased, so that the wireless charging device 10 stably maintains the position of the lamp 20 during the charging process.

As shown in fig. 1A to 4, the charging body 11 includes a housing 111, at least one transmitting module 112, a power interface 113, and a circuit board 114, wherein the transmitting module 112 is electrically connected to an external power source through the power interface 113. The transmitting module 112 is disposed on the housing 111, the transmitting module 112 is fixed to the housing 111, and the transmitting module 112 transmits the charged electromagnetic signal to the lamp 20 based on the housing 111. The magnetic attraction device 12 is movably disposed in the housing 111 of the charging body 11, wherein the housing 111 includes an upper housing 1111, a lower housing 1112 and a mounting groove 1113 formed by the upper housing 1111 and the lower housing 1112, and the housing 111 movably holds the magnetic attraction device 12 in the mounting groove 1113. Preferably, the mounting groove 1113 is formed at a middle position of one side of the housing 111. The magnetic attraction device 12 is supported by the housing 111 to rotate in the mounting groove 1113. It should be noted that when the magnetic attraction device 12 is rotated, the magnetic attraction device 12 rotates in the mounting groove 1113, that is, the magnetic attraction device 12 does not exceed the bottom edge of the housing 111 during rotation.

It should be noted that the housing 111 of the charging body 11 has an upper surface 1117 and a lower surface 1118, wherein the upper surface 1117 is located at the upper end of the upper housing 111, and the lower surface 1118 is formed at the lower side of the lower housing 112. When the magnetic attraction device 12 rotates in the mounting groove 1113, the edge of the magnetic attraction device 12 does not exceed the lower surface 1118 of the housing 111.

The transmitting module 112 is disposed on the upper housing 1111 of the housing 111, and preferably, the transmitting module 112 is attached to the inner side of the upper housing 1111, so that when the lamp 20 is charged, the transmitting module 112 is close to the lamp 20, increasing the charging efficiency of the wireless charging device 10. The transmitting module 112 includes at least one wireless transmitting coil, wherein the wireless transmitting coil is electrically connected to the circuit board 114. It should be noted that, the distance between the transmitting module 112 and the magnetic attraction device 12 is greater than or equal to 7.5mm, so as to prevent the transmitting module 112 of the wireless charging device 10 from receiving the magnetic field image of the magnetic attraction device 12 during the working process, thereby facilitating the working stability of the wireless charging device 10.

The housing 111 has an accommodating space 1114, wherein the upper housing 1111 and the lower housing 1112 of the housing 111 together form the accommodating space 1114, wherein the transmitting module 112 and the circuit board 114 are held in the accommodating space 1114 by the housing 111. The housing 111 further has at least two shaft holes 1115, wherein the shaft 123 rotatably mounts the magnetic attraction means 12 to the housing 111 through the shaft holes 1115.

The housing 111 is further provided with at least one mounting hole 1116, wherein the mounting hole 1116 penetrates through the upper housing 1111 and the lower housing 1112 of the housing 111, and the wireless charging device can be mounted on a wall surface, a desk, a chair, etc. through the mounting hole 1116. It is understood that, in the preferred embodiment of the present invention, the wireless charging device 10 can be fixedly installed on a wall, wherein the magnetic attraction device 12 of the wireless charging device 10 can attract the charged lamp 20 to the surface of the wireless charging device 10 through magnetic attraction.

The circuit board 114 is connected to an external power source through the power interface 113, and transmits the electric energy of the external power source to the transmitting module 112, so that the transmitting module 112 transmits the electric energy of the external power source to the lamp 20 in a wireless transmission manner. It should be noted that, in the preferred embodiment of the present invention, the wireless charging device 10 transmits the electric energy to the light fixture 20 through the transmission module 112 by means of electromagnetic induction, or transmits the electric energy to the light fixture 20 through the transmission module 112 by means of magnetic resonance. In the present invention, the manner of power transmission of the wireless charging device 10 is only used as an example and is not limited.

As shown in fig. 2 to 4, the wireless charging device 10 further includes at least one mounting unit 13, wherein the mounting unit 13 mounts the charging body 11 of the wireless charging device 10 on an object to be mounted, such as a table, an iron plate, a workbench, and the like. Preferably, the mounting unit 13 mounts the wireless charging body 11 on the object to be mounted by suction or adhesion. That is, the mounting unit 13 may be implemented as an adhesive member or a magnetic attraction member. Preferably, in the preferred embodiment of the present invention, the mounting unit 13 is a magnet, wherein the mounting unit 13 is disposed on the housing 111 of the charging body 11, and the charging body 11 is fixed on a tabletop with magnetic adsorption property, such as a surface of a ferrous object, by the mounting unit 13 in an adsorption manner. More preferably, the mounting unit 13 is embedded in the lower housing 1112 of the housing 111.

As shown in fig. 2 to 4, the wireless charging device 10 further includes at least one prompting device 14, wherein the prompting device 14 is communicatively connected to the charging body 11, wherein the prompting device 14 obtains the operating status of the charging body 11 and prompts an operator based on the operating status of the charging body 11. In detail, when the wireless charging device 10 wirelessly charges the light fixture 20, and the wireless charging device 10 is in a charging state, the prompting device 14 prompts an operator that the wireless charging device is currently charging the light fixture 20. When the lamp 20 is charged, the prompting device 14 prompts the operator to stop the charging process of the lamp 20 in time, or to take away the charged lamp 20.

In detail, the prompting device 14 further includes at least one warning light 141 and a buzzer 142, wherein the warning light 141 indicates the charging status of the light 20 or the operating status of the wireless charging device 10 by an operator in a manner of lighting. The buzzer 142 prompts the operator of the current working state of the wireless charging device 10 in a voice prompt manner. In particular, when the light fixture 20 is fully charged, the wireless charging device 10 cannot charge the light fixture 20, or the wireless charging device 10 is abnormally operated, the warning light 141 or the buzzer 142 of the prompting device 14 prompts an operator, so that the operator can adjust the wireless charging device 10, adjust the relative position of the light fixture 20 and the wireless charging device 10, or separate the light fixture 20 from the wireless charging device 10 according to prompting information. Preferably, the prompting device 14 is disposed on the upper housing 1111 of the housing 111. It is understood that the installation positions of the warning lamp 141 and the buzzer 142 of the prompting device 14 are only taken as examples and are not limited.

Referring to fig. 5A to 5C of the drawings of the present invention, another alternative embodiment of a wireless charging device 10A of the wireless charging lighting system according to the above preferred embodiment of the present invention is illustrated in the following description. Wireless charging device 10A includes a main part 11A that charges, a magnetism device 12A, at least one installation element 13A and at least one suggestion device 14A of inhaling, wherein magnetism device 12A is inhaled movably set up in main part 11A charges, through the adjustment magnetism device 12A's position is inhaled to the regulation, so that lamps and lanterns 20 quilt magnetism device 12A inhales adsorb in main part 11A's the upper surface charges, and be convenient for lamps and lanterns 20 with main part 11A separation charges. It is worth mentioning that, in the present invention, the structure and function of the installation unit 13A and the prompt device 14A of the wireless charging device 10A are the same as those of the wireless charging device of the first preferred embodiment.

The magnetic attraction device 12A is disposed on the charging body 11A, and the magnetic attraction device 12A can be driven to move or rotate in the charging body in parallel, so as to attract the lamp 20 to the charging body 11A and facilitate the separation of the lamp 20 from the charging body by adjusting the position or the rotation angle of the magnetic attraction device 12A. Specifically, the charging body 11A includes a housing 111A, at least one transmitting module 112A, a power interface 113A, and a circuit board 114A, wherein the transmitting module 112A is electrically connected to an external power source through the power interface 113A. The housing 111A of the charging body 11A has a mounting groove 1113A, wherein the magnetic attraction device 12A is disposed in the mounting groove 1113A in a relatively movable manner.

In the preferred embodiment of the present invention, the position of the magnetic attraction device 12A in the mounting groove 1113A is adjusted by moving the magnetic attraction device 12A, so as to adjust the position of the lamp 20 to be attracted. The magnetic attraction device 12A has a magnetic attraction surface 121A and at least one non-magnetic attraction surface 122A, wherein the magnetic attraction surface 121A and the non-magnetic attraction surface 122A are located on the same plane, or the magnetic attraction surface 121A and the non-magnetic attraction surface 122A are located on the same plane and are parallel to each other. The magnetic attraction device 12A is pushed to move or rotate in the mounting groove 1113A in parallel by pressing or pushing, so that the positions of the magnetic attraction surface 121A and the non-magnetic attraction surface 122A of the magnetic attraction device 12A relative to the charging body 11A change. Illustratively, the magnetically attracting surface 121A of the magnetically attracting device 12A is located inside the magnetically non-attracting surface 122A. The magnetic device 12A further includes a supporting device 125A and at least one magnetic unit 124A, wherein the magnetic unit 124A is disposed in the magnetic surface 121A of the magnetic device 12A. It is understood that the magnetic attraction unit 124A is located to form the magnetic attraction surface 121A, and the non-magnetic attraction surface 122A of the magnetic attraction device 12A is located away from the magnetic attraction unit 124A. The bearing device 125A of the magnetic attraction device 12A is held in the mounting groove 1113A by the housing 111A.

The magnetic attraction device 12A further includes at least one supporting element 126A, wherein the supporting element 126A is disposed in the mounting groove 1113A of the housing 111A, and the supporting element 126A supports the carrying device 125A to maintain the relative position of the magnetic attraction device 12A. When the lamp 20 is charged in the wireless charging device 10A, the supporting element 126A supports the carrying device 125A at the outer opening position of the mounting groove 1113A, and the lamp 20 is attracted by the magnetic unit 124A of the magnetic device 12A and attached to the surface of the charging body 10A. Preferably, the number of the magnetic units 124A of the magnetic device 12A is at least two, wherein the magnetic units 124A are spaced apart from each other, and the lamp 20 to be charged is oppositely attracted to the housing 111A of the charging body 11A by the attraction of the at least two spaced magnetic units 124A to the lamp 20.

It should be noted that the supporting device 125A of the magnetic attraction device 12A protrudes outward from the mounting groove 1113A of the housing 111A. The user can adjust the carrying device 125A of the magnetic attraction device 12A by pressing or pushing to adjust the positions of the magnetic attraction surface 121A and the non-magnetic attraction surface 122A of the magnetic attraction device 12A relative to the mounting groove 1113A.

As shown in fig. 5C, the carrying device 125A of the magnetic device 12A is pressed or pushed, wherein the carrying device 125A of the magnetic device 12A is pressed to the inner side of the mounting groove 1113A, wherein the magnetic surface 121A and the lamp 20 are misaligned, so as to reduce the attraction of the magnetic device 12A to the lamp housing 20, so as to separate the lamp 20 from the charging body 11A. Preferably, the supporting element 126A is implemented as a spring element, wherein the spring element is disposed inside the mounting groove 1113A, and the supporting element 126A pushes the bearing device 125A of the magnetic attraction device 12A.

It is understood that, in the preferred embodiment of the present invention, the magnetic attraction device 12A is disposed in the charging body 11A in a parallel-moving manner. It will be appreciated by those skilled in the art that the magnetic attraction means 12A may also be implemented as a dial arrangement.

Referring to fig. 6 and 7 of the drawings, another alternative embodiment of a wireless charging device 10 of the wireless charging lighting system according to the above preferred embodiment of the present invention is illustrated in the following description. The wireless charging device 10 includes a charging body 11, a magnetic attraction device 12, at least one installation unit 13, and at least one prompt device 14, wherein the magnetic attraction device 12 is movably disposed on the charging body 11, and the position of the magnetic attraction device 12 is adjusted so that the lamp 20 is attracted to the upper surface of the charging body 11 by the magnetic attraction device 12, and the lamp 20 is separated from the charging body 11. It should be noted that, in the preferred embodiment of the present invention, the structures and shapes of the charging body 11, the mounting unit 13, and the prompting device 14 are the same as those of the first preferred embodiment, and the difference is that the magnetic attraction device 12 is used. The charging body 11 includes a housing 111, at least one transmitting module 112, a power interface 113, and a circuit board 114, wherein the transmitting module 112 is electrically connected to an external power source through the power interface 113. The housing 111 further comprises an upper housing 1111 and a lower housing 1112, wherein the upper housing 111 forms a mounting slot 1113, and the magnetic attraction 12 is movably disposed in the mounting slot 1113.

In detail, the magnetic attraction device 12 is swingably disposed on the charging body 11, wherein the charging body 11 supports the magnetic attraction device 12 to swing up and down on the charging body 11 along a rotation axis. The magnetic device 12 includes a rotating shaft 123, a carrying device 125, and at least one magnetic unit 124, wherein the rotating shaft 123 is rotatably connected to the upper housing 1111 of the housing 111. The magnetic unit 124 is embedded into the carrier 125, and the carrier 125 carries the magnetic unit 124 to rotate around the rotation axis 123. When the carrying device 125 rotates to the upper highest position, the upper surfaces of the carrying device 125 and the magnetic attraction unit 124 are parallel to the charging body 11. Rotating the carrying device 125 downward based on the rotation shaft 123, moving the magnetic attraction unit 124 downward by the carrying device 125, so that the magnetic attraction unit 124 is away from the upper surface of the charging body 11.

Preferably, in the utility model discloses in, in the device 12 is inhaled to magnetism the quantity of unit 124 is at least two, wherein unit 124 is inhaled to magnetism is set up by mutual interval, by at least two different positions the unit 124 is right is inhaled to magnetism of lamps and lanterns 20, the adjustment lamps and lanterns 20 with wireless charging device 10's relative position, be convenient for lamps and lanterns 20 with wireless charging device 10's accurate counterpoint, thereby improve wireless charging device 10 is right lamps and lanterns 20's charging efficiency.

Therefore, when the lamp 20 is placed above the charging body 11, the magnetic attraction unit 124 of the magnetic attraction device 12 attracts the lamp 20, so that the lamp 20 is attached to the upper shell 1111 of the shell 111. When the light fixture 20 and the wireless charging device 10 are separated, the carrying device 125 is rotated around the rotating shaft 123 by pressing the distal end of the carrying device 125, wherein the magnetic attracting unit 124 is rotated away from the light fixture 20, so as to reduce the magnetic force attracted by the light fixture 20.

As shown in fig. 7, the magnetic attraction device 12 further includes at least one supporting element 126, wherein the supporting element 126 is disposed below the carrying device 125, and provides an upward supporting force to the carrying device 125, so that the carrying device 125 supports the magnetic attraction unit 124 to maintain a position close to the upper surface of the charging body 11. Preferably, the support element 126 is embodied as a spring element.

As shown in fig. 8 to 9C, the lamp 20 of the wireless charging and lighting system includes a lamp body 21 and at least one magnetically attracting metal unit 22, wherein the magnetically attracting metal unit 22 is disposed on the lamp body 21. It is understood that the magnetically attractive metal unit 22 can be attracted by the magnetically attractive unit 124 of the magnetically attractive device 12, so that the wireless charging device 10 can attract the lamp main body 21 through the magnetically attractive metal unit 22. Preferably, the magnetically attracting metal unit 22 is embedded into the lamp body 21 of the lamp 20 so as to reduce the distance between the transmitting module 112 of the wireless charging device 10 and the lamp body 21. More preferably, the magnetic metal unit 22 can be attracted by the magnetic unit 124, but the magnetic metal unit 22 itself has no magnetism, so as to prevent the magnetic metal unit 22 from attracting impurities such as iron pieces after the lamp 20 is charged, thereby imaging the next charging of the lamp 20. The magnetically attracted metal person 22 may be, but is not limited to, an iron block, a ferrous metal alloy block, or other materials capable of being attracted by the magnetically attracting unit 124.

Preferably, in the preferred embodiment of the present invention, the number of the magnetically attracting metal units 22 is the same as the number of the magnetically attracting units 124 of the wireless charging device 10, that is, the number of the magnetically attracting metal units 22 of the lamp 20 is at least two, and the magnetically attracting metal units 22 are arranged at intervals. Preferably, the spacing distance between the magnetically attracted metal units 22 and the spacing distance between the magnetically attracted units 124 are the same as H. When the lamp 20 is placed on the wireless charging device 10, the magnetic attraction metal unit 22 is correspondingly attracted to the magnetic attraction unit 124 of the wireless charging device 10, wherein the magnetic attraction unit 124 and the magnetic attraction metal unit 22 are aligned vertically, so that the magnetic attraction device 12 of the wireless charging device 10 is attracted to the charging body 11 through the magnetic attraction metal unit 22 of the lamp 20.

The lamp main body 21 includes at least one light source 211, a lamp housing 212, at least one receiving module 213 and at least one energy storage device 214, wherein the light source 211 is disposed on the lamp housing 212, the light source 211 is electrically connected to the energy storage device 214, and the energy storage device 214 provides working power for the light source 211. The receiving module 213 is disposed in the lamp housing 212, and when the lamp 20 is placed in the wireless charging device 10, the receiving module 213 of the lamp 20 receives the electromagnetic signal transmitted by the transmitting module 112 and generates an induced current. The receiving module 213 is electrically connected to the energy storage device 214, and the electric energy generated by the receiving module 213 is stored in the energy storage device 214.

It is worth mentioning that in the preferred embodiment of the present invention, the light source 211 can be, but is not limited to, an LED lamp, wherein the type and structure of the light source 211 are only exemplary and not limiting.

The lamp housing 212 includes a lamp upper shell 2121, a lamp lower shell 2122, and a lamp body space 2123 further formed by the lamp upper shell 2121 and the lamp lower shell 2122, wherein the receiving module 213 and the energy storage device 214 are held by the lamp housing 212 in the lamp body space 2123. The lamp upper case 2121 and the lamp lower case 2122 are hermetically coupled.

The receiving module 213 is attached to the inner side of the lamp housing 2122 of the lamp housing 212, so that when the wireless charging device 10 wirelessly charges the lamp 20, the distance between the receiving module 212 and the transmitting module 122 is reduced, thereby improving the charging efficiency of the wireless charging device 10 on the lamp 20. Preferably, the position of the receiving module 213 relative to the magnetically attractive metal unit 22 corresponds to the relative position of the transmitting module 122 relative to the magnetically attractive unit 124, that is, when the magnetically attractive unit 124 is located on the magnetically attractive metal unit 22, the transmitting module 122 is located on the receiving module 213. Therefore, whether the transmitting module 122 and the receiving module 213 are aligned can be determined by the relative positions of the magnetic unit 124 and the magnetic unit 22.

When the lamp 20 is placed above the wireless charging device 10 for charging, each magnetic attraction unit 124 of the wireless charging device 10 attracts each magnetic attraction metal unit 22 of the lamp 20, so that each magnetic attraction unit 124 of the wireless charging device 10 is aligned with each magnetic attraction metal unit 22 of the lamp 20, and the transmitting module 122 is aligned with the receiving module 213. That is, in the charging direction of the wireless charging device 10, the wireless charging device 10 attracts the lamp 20 by magnetic attraction, so that the transmitting module 122 corresponds to the receiving module 213, thereby improving the charging efficiency of the lamp 20.

It is worth mentioning that the distance between the transmitting module 122 and the receiving module 213 is greater than or equal to 2 mm.

It is worth mentioning that the energy storage device 214 is implemented as a battery unit or a battery pack having charging and discharging functions, wherein the energy storage device 214 stores the induced electric energy generated by the receiving module 213 for the light source 211 to emit light.

The light source 211 includes at least one light emitting unit 2111 and a light source bracket 2112, wherein the light source bracket 2112 fixes the light emitting unit 2111 to the housing 212. Preferably, the light emitting unit 2111 is thermally connected to the light source bracket 2112, and heat generated by the light emitting unit 2111 during light emitting is dissipated by the light source bracket 2112 in a heat conduction manner, so as to reduce the temperature of the light emitting unit 2111. It is worth mentioning that the specific structure and shape of the lamp 20 in the present invention is only exemplary and not limiting.

The lamp 20 further includes a bracket 23, wherein the bracket 23 is disposed on the lamp body 21, and wherein the bracket 23 supports the illumination of the lamp body 21. Preferably, the bracket 23 is movably connected to the outer side of the lamp main body 21, and the angle of the lamp main body 21 to be placed and supported is adjusted by adjusting the rotation angle of the bracket 23.

Fig. 10A to 10C show a usage mode and a usage scenario of the wireless charging lighting system of the present invention. The wireless charging device 10 can be fixedly installed on any angle position of a wall surface, a desktop, or a plane or an inclined plane of a workbench; or the wireless charging device 10 may be adsorbed on the surface of ferrous metal. As shown in fig. 9B, when the light fixture 20 is placed on the wireless charging device 10 for charging, the magnetic attraction surface 121 of the magnetic attraction device 12 of the wireless charging device 10 is adjusted to face the charging direction of the wireless charging device 10 or the light fixture 20. After the magnetic attraction device 12 is adjusted, the magnetic attraction device 12 is locked by the rotating lock 126 to maintain the position of the magnetic attraction device 12, so as to prevent the magnetic attraction device 12 from being rotated to be separated from the lamp 20 during the charging process.

The magnetic attraction metal unit 22 of the lamp 20 is attracted by the magnetic attraction unit 124 of the wireless charging device 10 in an aligned manner, wherein the magnetic attraction metal unit 22 and the magnetic attraction unit 124 are aligned up and down. Since the position of the transmitting module 112 relative to the magnetic attraction unit 124 is the same as the position of the receiving module 213 relative to the magnetic attraction unit 22, after the magnetic attraction metal unit 22 and the magnetic attraction unit 124 are aligned, the transmitting module 12 and the receiving module 213 are aligned up and down, so that the transmitting module 12 transmits an electromagnetic signal with electric energy to the receiving module 213, and the receiving module 213 generates inductive electric energy based on the electromagnetic signal transmitted by the transmitting module 12.

When the light fixture 20 is separated from the wireless charging device 10, for example, when the light fixture 20 is fully charged, the non-magnetic attraction surface 122 of the magnetic attraction device 12 faces the light fixture 20 by rotating or rotating the magnetic attraction device 12. Since the non-magnetic attraction surface 122 has no magnetism or has a small magnetic attraction, the attraction force generated by the lamp 20 is small, thereby facilitating the separation of the lamp 20 and the wireless charging device 10.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. 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 (33)

1. A wireless charging device adapted to wirelessly charge a light fixture, comprising:

a charging body; and

at least one magnetic attraction device, wherein the magnetic attraction device is movably arranged in the charging main body, and the lamp is adsorbed by the magnetic attraction device and attached to the charging main body.

2. The wireless charging device of claim 1, wherein the magnetically attractive device is rotatably disposed on the charging body.

3. The wireless charging device of claim 1, wherein the magnetically attractive device is movably disposed to the charging body.

4. The wireless charging device of claim 2, wherein the magnetic attraction device comprises a carrying device, at least one magnetic attraction unit and a rotating shaft, the magnetic attraction unit is disposed on the carrying device, wherein the carrying device is rotatably connected to the charging body by the rotating shaft, and the carrying device drives the magnetic attraction unit to rotate.

5. The wireless charging device of claim 4, wherein the magnetic attraction device further has a magnetic attraction surface and a non-magnetic attraction surface corresponding to the magnetic attraction surface, wherein the magnetic attraction unit is embedded in the carrier, the magnetic attraction unit forms the magnetic attraction surface at an embedding end of the carrier, the other end of the carrier forms the non-magnetic attraction surface, and the magnetic attraction surface and the non-magnetic attraction surface of the magnetic attraction device are oriented by rotating the magnetic attraction device.

6. The wireless charging device of claim 3, wherein the magnetically attracting device further has a magnetically attracting surface and a magnetically non-attracting surface adjacent to each other to adjust the positions of the magnetically attracting surface and the magnetically non-attracting surface relative to the charging body when the magnetically attracting device is driven to move relative to the charging body.

7. The wireless charging device of claim 5, wherein the magnetically attracting device further comprises at least one rotating lock, wherein the rotating lock can lock a rotation angle of the carrying device.

8. The wireless charging device of claim 1, wherein the magnetic attraction device comprises a carrying device, at least one magnetic attraction unit, and a rotating shaft, wherein the magnetic attraction unit is disposed on the carrying device, the rotating shaft is connected to the carrying device at an upper end of the charging body, and the carrying device drives the magnetic attraction unit to swing up and down based on the rotating shaft.

9. The wireless charging device of claim 8, wherein the magnetic attraction unit is embedded into the carrying device, wherein the attraction force of the magnetic attraction unit on the lamp is adjusted by adjusting the swing angle of the carrying device.

10. The wireless charging device of claim 9, wherein the magnetically attracting unit further comprises at least one supporting element, wherein the supporting element is disposed below the carrying device, and the carrying device is supported upward by the supporting element.

11. The wireless charging device according to claim 4, 5, 7, 8, 9 or 10, wherein the number of the magnetic units of the magnetic device is two, and the two magnetic units are spaced apart from each other.

12. The wireless charging device of claim 11, wherein the charging body comprises a housing, at least one transmitting module, a power interface, and a circuit board, wherein the circuit board is electrically connected to the power interface and the transmitting module, wherein the transmitting module is attached to the inner side of the housing, and the distance between the transmitting module and the magnetic attraction device is greater than or equal to 7.5 mm.

13. The wireless charging device of claim 12, wherein the housing comprises an upper housing, a lower housing, and a mounting slot formed by the upper housing and the lower housing, wherein the housing movably retains the magnetic attachment device in the mounting slot.

14. The wireless charging device of claim 12, wherein the housing further has at least one mounting hole through which the wireless charging device is fixedly mounted to an attached surface.

15. The wireless charging device of claim 12, wherein the charging body further comprises a prompting device, wherein the prompting device is communicatively connected to the charging body, the prompting device prompts the operating status of the wireless charging device based on the operating information of the charging body, the prompting device comprises at least one warning light and a buzzer, wherein the warning light and the buzzer are disposed on an upper housing of the housing.

16. A wireless charging lighting system, comprising:

a wireless charging device, wherein the wireless charging device comprises a charging body and at least one magnetic attraction device, wherein the magnetic attraction device is movably arranged on the charging body; and

the wireless charging device comprises at least one lamp, wherein the lamp comprises a lamp main body and at least one magnetic metal unit, the magnetic metal unit is arranged on the lamp main body, and the magnetic metal unit can be adsorbed by the magnetic device of the wireless charging device and attached to the lamp main body on the charging main body.

17. The wireless charging lighting system of claim 16, wherein the magnetically attractive device is rotatably disposed on the charging body.

18. The wireless charging lighting system of claim 16, wherein the magnetically attractive device is movably disposed at the charging body.

19. The wireless charging and lighting system of claim 16, wherein the magnetic attraction device comprises a carrying device, at least one magnetic attraction unit and a rotating shaft, the magnetic attraction unit is disposed on the carrying device, wherein the carrying device is rotatably connected to the charging body by the rotating shaft, and the carrying device drives the magnetic attraction unit to rotate.

20. The wireless charging and lighting system of claim 19, wherein the magnetic attraction device further has a magnetic attraction surface and a non-magnetic attraction surface corresponding to the magnetic attraction surface, wherein the magnetic attraction unit is embedded in the carrier device, the magnetic attraction unit forms the magnetic attraction surface at an embedding end of the carrier device, the other end of the carrier device forms the non-magnetic attraction surface, and the magnetic attraction surface and the non-magnetic attraction surface of the magnetic attraction device are oriented by rotating the magnetic attraction device.

21. The wireless charging and lighting system of claim 18, wherein the magnetically attracting device further has a magnetically attracting surface and a non-magnetically attracting surface adjacent to each other to adjust the positions of the magnetically attracting surface and the non-magnetically attracting surface relative to the charging body when the magnetically attracting device is driven to move relative to the charging body.

22. The wireless charging lighting system of claim 20, wherein the magnetically attractive device further comprises at least one rotating lock, wherein the rotating lock can lock a rotation angle of the carrying device.

23. The wireless charging and lighting system of claim 16, wherein the magnetic attraction device comprises a carrying device, at least one magnetic attraction unit, and a rotating shaft, wherein the magnetic attraction unit is disposed on the carrying device, the rotating shaft is connected to the carrying device at an upper end of the charging body, and the carrying device drives the magnetic attraction unit to swing up and down based on the rotating shaft.

24. The wireless charging and lighting system of claim 23, wherein the magnetic attraction unit is embedded in the carrier, wherein an attraction force of the magnetic attraction unit on the lamp is adjusted by adjusting a swing angle of the carrier.

25. The wireless charging and lighting system of claim 24, wherein the magnetically attracting unit further comprises at least one supporting element, wherein the supporting element is disposed below the carrying device, by which the carrying device is supported upward.

26. The wireless charging and lighting system according to claim 19, 20, 22, 23, 24 or 25, wherein the number of the magnetic units of the magnetic device is two, and the two magnetic units are spaced apart from each other.

27. The wireless charging and lighting system of claim 26, wherein the charging body comprises a housing, at least one transmitting module, a power interface, and a circuit board, wherein the circuit board electrically connects the power interface to the transmitting module, wherein the transmitting module is attached to the inside of the housing, and the distance between the transmitting module and the magnetic attraction device is greater than or equal to 7.5 mm.

28. The wireless charging lighting system of claim 27, wherein the housing comprises an upper housing, a lower housing, and a mounting slot formed by the upper housing and the lower housing, wherein the housing movably retains the magnetic attachment device in the mounting slot.

29. The wireless charging lighting system of claim 27, wherein the housing further has at least one mounting hole through which the wireless charging device is fixedly mounted to an attached surface.

30. The wireless charging lighting system of claim 27, wherein the charging body further comprises a prompting device, wherein the prompting device is communicatively connected to the charging body, the prompting device prompts the operating status of the wireless charging device based on the operating information of the charging body, the prompting device comprises at least one warning light and a buzzer, wherein the warning light and the buzzer are disposed on an upper housing of the housing.

31. The wireless charging lighting system of claim 19, 20, 23, 24 or 25, wherein the number of the magnetically attractive metal units of the lamp is two, two of the magnetically attractive metal units are disposed at a distance from each other in the lamp body of the lamp, two of the magnetically attractive units of the magnetically attractive device are disposed at a distance from each other in the carrying device of the magnetically attractive device, and a distance between the two magnetically attractive metal units is the same as a distance between the two magnetically attractive units.

32. The wireless charging lighting system of claim 31, wherein the light fixture body of the light fixture further comprises a light fixture housing, at least one light source, at least one receiving module, and at least one energy storage device, wherein the energy storage device electrically connects the light source and the receiving module, the receiving module stores electrical energy to the energy storage device, wherein the light source is disposed in the light fixture housing, the receiving module is attached to an inner side of the light fixture housing, the wireless charging device comprises at least one transmitting module, wherein when the light fixture is charged by the wireless charging device, a distance between the receiving module and the transmitting module is greater than or equal to 2 mm.

33. The wireless charging lighting system of claim 31, wherein the light fixture body further comprises at least one receiving module, the wireless charging device comprises at least one transmitting module, and the receiving module of the light fixture is located at the same position relative to the magnetically attracted metal unit as the transmitting module is located relative to the magnetically attracted unit, wherein the magnetically attracted unit enables the pair of receiving modules to be located at the transmitting module by attracting the magnetically attracted metal unit.

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