CN210640701U - Magnetic attraction type charging platform - Google Patents

Abstract

The utility model discloses a formula charging platform is inhaled to magnetism, it includes that a main part and an at least magnetism inhale the component of charging, the main part of charging includes that one bears casing, a transmitting coil and a power supply unit, wherein transmitting coil with power supply unit set up in bear the casing, transmitting coil is connected in the power supply unit, at least magnetism inhale the component, wherein magnetism inhale the component interval distribute in the main part of charging around transmitting coil, magnetism inhale the formula charging platform can inhale the mode that the formula lamps and lanterns were inhaled to the magnetism and do the formula lamps and lanterns of absorption charge.

Description

Magnetic attraction type charging platform

Technical Field

The utility model relates to the field of lighting, in particular to formula charging platform is inhaled to magnetism.

Background

With the popularization of electronic products, wireless charging technology is also widely applied to daily life of people. However, there are still many problems in the use process of the existing wireless charging product. The wireless charging lamp is taken as an example for explanation.

The existing wireless charging lamp comprises a chargeable lighting device and a wireless charging base, wherein the chargeable lighting device comprises a light-emitting main body and a receiving coil, the receiving coil is installed in an assembling cavity of the light-emitting main body, and the receiving coil is electrically connected to the light-emitting main body, the wireless charging base comprises a charging main body and a bearing shell, and the charging main body is installed in an accommodating cavity of the bearing shell. When the chargeable lighting device is held at one side of the wireless charging base in a manner that the receiving coil corresponds to a transmitting coil of the charging body of the wireless charging base, and the receiving coil of the chargeable lighting device is close to the transmitting coil of the charging body, the transmitting coil of the charging body causes a current to be generated in the receiving coil of the chargeable lighting device through electromagnetic induction based on a certain frequency of alternating current, so that the wireless charging base can charge the transmitting body of the chargeable lighting device. However, in an actual use process, if a corresponding position of the receiving coil of the chargeable lighting device and the transmitting coil of the charging body of the wireless charging base is deviated, the wireless charging base may intermittently charge the chargeable lighting device, or even fail to charge the chargeable lighting device. Therefore, the charging efficiency of the wireless charging lamp is reduced, the use of a user is influenced, the wireless charging lamp is unstably charged for a long time, and the service lives of the rechargeable lighting device and the wireless charging base are easily shortened.

In the manufacturing process of the existing wireless charging lamp, it is common to provide a charging sign on the surface of the chargeable lighting device and the wireless charging base, respectively, where the charging sign of the chargeable lighting device and the wireless charging base corresponds to the receiving coil and the transmitting coil, respectively. During the use process, a user needs to manually correspond the charging mark of the chargeable lighting device to the charging mark of the wireless charging base, so that the receiving coil and the transmitting coil are opposite, and the charging operation is stably carried out. Not only complex operation, influence user's use and experience, manual operation also can have the deviation moreover, is difficult to the guarantee wireless charging base is steadily all the time can charge lighting device.

Therefore, it is urgently needed to improve the structure of the wireless charging lamp so that the wireless charging base of the wireless charging lamp can stably charge the rechargeable lighting device.

SUMMERY OF THE UTILITY MODEL

Another object of the utility model is to provide a formula charging platform is inhaled to magnetism, wherein formula charging platform is inhaled to magnetism can be applied to a magnetism and inhale the wireless lighting device that charges of formula, just formula charging platform is inhaled to magnetism with magnetism inhales the wireless lighting device that charges of formula and inhale formula lamps and lanterns can the inter attraction to correct at the in-process of inter attraction is automatic, so that magnetism inhale the charge position of formula lamps and lanterns with magnetism inhale formula charging platform's charge position just right, and then be favorable to magnetism is inhaled formula charging platform and is done steadily magnetism is inhaled formula lamps and lanterns and charge.

Another object of the present invention is to provide a magnetic type charging platform, wherein the magnetic type wireless charging lighting device comprises at least one magnetic element, the magnetic type charging platform comprises at least one magnetic element, the magnetic type lighting device is adsorbed on the magnetic type charging platform the mode of the magnetic type charging platform is set up in the magnetic type charging platform, just the magnetic element with the magnetic type charging platform has different magnetic poles, so that the magnetic type charging platform and the magnetic type lighting device can automatically correct in the process of the magnetic type charging platform.

Another object of the present invention is to provide a magnetic type charging platform, wherein a charging body of the magnetic type charging platform has a carrying end, and the carrying end can be switched between a strong magnetic state and a weak magnetic state, and then changed the magnetic type charging platform is right the size of the magnetic attraction of the magnetic type lamp is inhaled to satisfy the different user demands of the user.

Another object of the utility model is to provide a formula charging platform is inhaled to magnetism, wherein works as formula charging platform is inhaled to magnetism the loading end is in during strong magnetic state, it is right that formula charging platform is inhaled to magnetism lamps and lanterns production attracts strongly, so that formula lamps and lanterns are inhaled in order to be adsorbed steadily to magnetism formula charging platform the mode of loading end carries out the electric quantity replenishment.

Another object of the utility model is to provide a formula charging platform is inhaled to magnetism, wherein works as formula charging platform is inhaled to magnetism the loading end is in during the weak magnetic state, it is right that formula charging platform is inhaled to magnetism the appeal of lamps and lanterns is more weak, and the user can singlehanded take and be arranged in the loading end magnetism inhale lamps and lanterns, convenient operation is swift.

Another object of the present invention is to provide a magnetic type charging platform, wherein the magnetic type element is installed in the charging body in a turnable manner, and then via the turning the magnetic type element makes the magnetic type element the magnetic type surface is close to or kept away from the charging body the carrying surface is changed the charging body the service condition of the carrying surface, and then changed the carrying platform the carrying surface is facing the size of the magnetic attraction of the magnetic type lamp.

Another object of the present invention is to provide a magnetic type charging platform, wherein the magnetic element is telescopically installed in the charging platform, and further through the extension the magnetic element is made the magnetic element the magnetic surface is close to or kept away from the charging main body the loading end, and then changes the charging main body the service condition of the loading end.

Another object of the present invention is to provide a magnetic charging platform, wherein the magnetic element is installed in the charging platform in a slidable manner, and the magnetic element is in the sliding in-process of the charging platform, the magnetic element can be blocked or exposed, and the magnetic surface can be changed in such a manner to charge the main body the service condition of the loading end, and then the magnetic charging platform is right to the size of the magnetic attraction of the lamp.

Another object of the present invention is to provide a magnetic charging platform, wherein the magnetic charging platform includes a shielding element, wherein the shielding element is operatively installed in the charging platform, and the shielding element is retained in the magnetic suction element is disposed above the magnetic suction surface, thereby the shielding element can be shielded or exposed to the magnetic suction element is disposed above the magnetic suction surface, the magnetic suction surface is changed in such a way as to charge the main body in the use state of the loading end, and further changed the magnetic charging platform is right to the size of the magnetic attraction of the lamp.

Another object of the utility model is to provide a formula charging platform is inhaled to magnetism, wherein the main part of charging the loading end is in during the weak magnetic state, magnetism is inhaled formula charging platform magnetism inhale the component still can be right magnetism is inhaled formula lamps and lanterns magnetism produces the appeal, with magnetism is inhaled formula lamps and lanterns and is arranged in the main part of charging when the loading end, magnetism inhale formula lamps and lanterns automatically rectify with magnetism is inhaled formula charging platform's corresponding position, so that magnetism is inhaled formula lamps and lanterns by the charged position with magnetism is inhaled formula charging platform's charged position just right, and then is favorable to magnetism is inhaled formula charging platform and is done steadily magnetism is inhaled formula lamps and lanterns and charge.

Another object of the utility model is to provide a formula charging platform is inhaled to magnetism, wherein formula charging platform is inhaled to magnetism the quantity of magnetism component is implemented as two respectively and more than two, just magnetism is inhaled formula lamps and lanterns can with magnetic element is by at least one the mode that the component attracted is inhaled to magnetism is arranged in formula charging platform is inhaled to magnetism to charge, be favorable to magnetism is inhaled formula charging platform adaptation in different grade type magnetism is inhaled formula lamps and lanterns, and then has improved formula charging platform's suitability is inhaled to magnetism.

Another object of the utility model is to provide a formula charging platform is inhaled to magnetism, wherein the magnetism inhale the formula lamps and lanterns with formula charging platform is inhaled by at least two magnetic element with magnetism inhales the mode completion position correction of component inter attraction, further ensures magnetism inhale the formula lamps and lanterns by the charged position with formula charging platform's charged position is just right.

Another object of the present invention is to provide a magnetic type charging platform, wherein the magnetic type lamp further includes at least one isolation layer, wherein the isolation layer is covered on the magnetic element to avoid the external impurities to be directly adsorbed on the magnetic surface, which is favorable for fast cleaning and attaching to the magnetic element the impurities on the magnetic surface.

Another object of the present invention is to provide a magnetic type charging platform, wherein the magnetic type charging platform further comprises at least one isolation layer, wherein the isolation layer is covered with the magnetic type element is attracted to the magnetic type surface to avoid external impurities to be directly adsorbed in the magnetic type surface is favorable to fast cleaning and attached to the magnetic type element is attracted to the magnetic type surface.

According to an aspect of the utility model, the utility model discloses a magnetism is inhaled formula charging platform is further provided, and it includes:

the charging body comprises a bearing shell, a transmitting coil and a power supply unit, wherein the transmitting coil and the power supply unit are arranged in the bearing shell, and the transmitting coil is electrically connected with the power supply unit; and

at least one magnetic attraction element, wherein the magnetic attraction element is distributed around the transmitting coil of the charging body at intervals.

According to one embodiment of the present invention, the magnetically attractive elements are implemented in two, and the two magnetically attractive elements are symmetrically distributed on both sides of the transmitting coil.

According to one embodiment of the present invention, the magnetically attracting elements are implemented as two, and the two magnetically attracting elements are spaced apart from each other on the same side of the transmitting coil.

According to one embodiment of the present invention, the magnetically attractive elements are implemented in three, three surrounding the transmitting coil.

According to one embodiment of the present invention, the magnetically attractive elements are implemented in four, four surrounding the transmitting coil.

According to one embodiment of the invention, the distance between the magnetically attractive element and the transmitting coil is greater than or equal to 7.5 mm.

According to one embodiment of the invention, the distance between the magnetically attractive element and the transmitting coil is equal to 7.8 mm.

According to one embodiment of the present invention, the magnetically attractive element is a magnet.

According to one embodiment of the invention, a magnetic attraction surface of adjacent magnetic elements has different magnetic poles.

According to an embodiment of the present invention, the magnetically attractable charging platform further comprises a mounting member rotatably mounted to the carrying housing, the magnetically attractable member being fixed to the mounting member.

According to an embodiment of the present invention, the magnetically attractable charging platform further comprises a brake member, wherein the mounting member is brazeably coupled to the mounting member.

According to an embodiment of the present invention, the magnetic attraction type charging platform further includes a mounting element, the mounting element is telescopically mounted to the carrying housing, and the magnetic attraction element is movably disposed on the charging body by being mounted to the mounting element.

According to an embodiment of the present invention, the magnetically attractive charging platform further comprises a shielding element movably retained above the magnetically attractive surface of the magnetically attractive element.

According to an embodiment of the present invention, the magnetic charging platform further includes an assembling element, the bearing housing has an assembling space and a receiving groove, an opening of the receiving groove is communicated with the assembling space, the magnetic element is mounted on the assembling element, the assembling element is capable of moving between the assembling space and the receiving groove, when the magnetic element enters the receiving groove, the magnetic surface of the magnetic element is shielded by a groove wall defining the receiving groove, and when the magnetic element enters the assembling space, the magnetic surface of the magnetic element is exposed.

According to one embodiment of the invention, the magnetically attractive element is embedded in the carrying housing of the charging body.

According to an embodiment of the present invention, the magnetically-attracted charging platform further includes an isolation layer, and the isolation layer is covered on a surface of the magnetically-attracted element.

According to an embodiment of the present invention, the magnetic charging platform further has a carrying surface, wherein the carrying surface has a prompt area, and the prompt area faces the transmitting coil.

According to one embodiment of the present invention, the bearing housing has at least one mounting hole, and the mounting hole penetrates through the bearing housing.

According to an embodiment of the present invention, the magnetic-type charging platform further comprises at least one suction element, wherein the suction element is mounted on the back surface of the carrying housing.

According to an embodiment of the present invention, the magnetic-type charging platform further includes at least one prompting device, wherein the prompting device is communicably connected to the charging body.

According to one embodiment of the invention, the prompting device is implemented as a signal light and/or a sound emitter.

According to another aspect of the present invention, there is further provided a magnetic charging platform, comprising:

a charging body having a carrying surface, the charging body further comprising a carrying housing, a transmitting coil and a power supply unit, wherein the transmitting coil, the power supply unit and the power supply unit are disposed in the carrying housing, the transmitting coil is electrically connected to the power supply unit, and the carrying surface is formed on the carrying housing; and

the magnetic attraction element is provided with a magnetic attraction surface and is arranged on the bearing shell of the charging main body, and the relative position between the magnetic attraction surface of the magnetic attraction element and the bearing surface of the charging main body is allowed to be adjusted, so that the bearing surface of the charging main body can be switched between a strong magnetic state and a weak magnetic state.

According to an embodiment of the present invention, the magnetically-attracted charging platform further includes a mounting member, the mounting member is rotatably mounted to the carrying housing, and the magnetically-attracted member is movably disposed on the charging body by being mounted to the mounting member.

According to an embodiment of the present invention, the magnetically attractable charging platform further comprises a brake member, wherein the mounting member is brazeably coupled to the mounting member.

According to an embodiment of the present invention, the magnetic attraction type charging platform further includes a mounting element, the mounting element is telescopically mounted to the carrying housing, and the magnetic attraction element is movably disposed on the charging body by being mounted to the mounting element.

According to an embodiment of the present invention, the magnetic charging platform further includes an assembling element, the bearing housing has an assembling space and a receiving groove, an opening of the receiving groove is communicated with the assembling space, the magnetic element is mounted on the assembling element, the assembling element is capable of moving between the assembling space and the receiving groove, when the magnetic element enters the receiving groove, a magnetic attraction surface of the magnetic element is shielded by a groove wall defining the receiving groove, and when the magnetic element enters the assembling space, the magnetic attraction surface of the magnetic element is exposed.

According to an embodiment of the present invention, the magnetically attractive charging platform further comprises a shielding element movably retained above a magnetically attractive surface of the magnetically attractive element.

According to one embodiment of the present invention, the magnetically attractive element is a magnet.

According to one embodiment of the invention, a magnetic attraction surface of adjacent magnetic elements has different magnetic poles.

According to one embodiment of the invention, the distance between the magnetically attractive element and the transmitting coil is greater than or equal to 7.5 mm.

According to one embodiment of the invention, the distance between the magnetically attractive element and the transmitting coil is equal to 7.8 mm.

According to an embodiment of the present invention, the carrying housing of the charging body has at least one mounting hole, and the mounting hole penetrates through the carrying housing.

According to an embodiment of the present invention, the magnetic-type charging platform further comprises at least one suction element, wherein the suction element is mounted on the back surface of the carrying housing.

According to an embodiment of the present invention, the magnetic-type charging platform further comprises at least one prompting device, wherein the prompting device is communicably connected to the charging body.

According to one embodiment of the invention, the prompting device is implemented as a signal light and/or a sound emitter.

According to an embodiment of the present invention, the magnetically-attracted charging platform further includes an isolation layer covering a surface of the magnetically-attracted element.

According to an embodiment of the present invention, the magnetic charging platform further has a carrying surface, wherein the carrying surface has a prompt area, and the prompt area faces the transmitting coil.

Drawings

Fig. 1 is a perspective view of a magnetic wireless charging and lighting device according to a preferred embodiment of the present invention.

Fig. 2A is an exploded view of a magnetic-type lamp according to the above-mentioned preferred embodiment of the present invention.

Fig. 2B is a schematic diagram of an exploded view of a magnetic attraction type charging platform of the magnetic attraction type wireless charging illumination device according to the above preferred embodiment of the present invention.

Fig. 3A is a perspective view of the magnetic wireless charging and lighting device according to the above preferred embodiment of the present invention.

Fig. 3B is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the invention.

Fig. 3C is a perspective view of the magnetic wireless charging and lighting device according to the above preferred embodiment of the present invention.

Fig. 4 is a schematic view of a usage scenario of the magnetic wireless charging and lighting device according to the above preferred embodiment of the present invention.

Fig. 5A is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 5B is a schematic view of a usage scenario of the magnetic wireless charging and lighting device according to the above preferred embodiment of the present invention.

Fig. 6A is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 6B is a schematic view of a usage scenario of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 7A is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 7B is a schematic view of a usage scenario of the magnetic wireless charging and lighting device according to the above preferred embodiment of the present invention.

Fig. 8 is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 9 is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 10 is a perspective view of the magnetic wireless charging and lighting device according to another preferred embodiment of the present invention.

Fig. 11 is a perspective view of the magnetic wireless charging and lighting device 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 purposes 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 the attached drawings 1 to 4, a magnetic attraction type wireless charging illumination device 1000 according to a preferred embodiment of the present invention will be explained in the following description, wherein the magnetic attraction type wireless charging illumination device 1000 includes a magnetic attraction type charging platform 100 and a magnetic attraction type lamp 200, wherein the magnetic attraction type charging platform 100 and the magnetic attraction type lamp 200 can attract each other and automatically correct in the process of attracting each other, so that the charging position of the magnetic attraction type lamp 200 and the charging position of the magnetic attraction type charging platform 100 are right opposite, thereby facilitating the magnetic attraction type charging platform 100 to stably charge the magnetic attraction type lamp 200.

Referring to fig. 1 to 4, according to a preferred embodiment of the present invention, the magnetic attraction type charging platform 100 of the magnetic attraction type wireless charging device 1000 comprises a charging body 110 and at least one magnetic attraction element 120, wherein the charging body 110 has a carrying surface 1101, the magnetic attraction element 120 has a magnetic attraction surface 1201, and the magnetic attraction element 120 is installed on the charging body 110. The magnetic attraction type lamp 200 includes a lamp body 210 and at least one magnetic element 220, wherein the lamp body 210 has a contact surface 2101, the magnetic element 220 has a magnetic surface 2201, the magnetic element 220 is mounted on the lamp body 210, the contact surface 2101 of the lamp body 210 can be attached to the carrying surface 1101 of the charging main body 110 in a manner that the magnetic surface 2201 of the magnetic element 220 is attracted by the magnetic attraction surface 1201 of the magnetic attraction element 120, and the charging position of the lamp body 210 corresponds to the charging position of the charging main body 110. Moreover, the lamp body 210 is stably maintained at one side of the charging body 110 by the mutual attraction between the magnetic element 120 and the magnetic element 220, so as to prevent the lamp body 210 and the charging body 110 from being easily separated due to collision or other impacts. In this way, the magnetic type charging platform 100 can stably charge the magnetic type lamp.

Preferably, the magnetically attracting element 120 of the magnetically attracting charging platform 100 and the magnetic element 220 of the magnetically attracting lamp 200 are implemented as magnets, and the type of the magnets is not limited.

Further, as shown in fig. 3A, in this specific embodiment of the magnetic wireless charging lighting device 1000 of the present invention, the magnetic surface 1201 of the magnetic element 120 and the magnetic surface 2201 of the magnetic element 220 of the magnetic lamp 200 of the magnetic charging platform 100 have different magnetic poles respectively. In this way, the magnetic attraction surface 1201 of the magnetic attraction element 120 and the magnetic surface 2202 of the magnetic element 220 can attract each other, and automatically correct the corresponding positions of the lamp body 210 and the charging main body 110 in the process of attracting the magnetic attraction surface 1201 and the magnetic surface 2201 to each other, and when the magnetic attraction surface 1201 of the magnetic attraction element 120 and the magnetic surface 2201 of the magnetic element 220 are attached to each other, the charging position of the lamp body 210 and the charging position of the charging main body 110 are opposite to each other. Furthermore, the magnetic charging platform 100 can stably charge the magnetic lamp 200. Preferably, the magnetic attraction surface 1201 of the magnetic attraction element 120 of the magnetic charging platform 100 is an "N" pole, and the magnetic surface 2201 of the magnetic element 220 of the magnetic attraction lamp 200 is an "S" pole. Preferably, the magnetic attraction surface 1201 of the magnetic attraction element 120 of the magnetic charging platform 100 is "S" pole, and the magnetic surface 2201 of the magnetic element 220 of the magnetic attraction lamp 200 is "N" pole.

According to a preferred embodiment of the present invention, when the numbers of the magnetic attraction elements 120 and the magnetic elements 220 are respectively two or more, the magnetic poles of the magnetic attraction surfaces 1201 of the adjacent magnetic attraction elements 120 are different, and the magnetic poles of the magnetic surfaces 2201 of the magnetic elements 220 are different from the magnetic poles of the magnetic attraction surfaces 1201 of the corresponding magnetic attraction elements 120, that is, the magnetic properties of the magnetic surfaces 2201 of the adjacent magnetic elements 220 are different. In this way, only if the charging position of the magnetic attraction type lamp 200 faces the charging position of the magnetic attraction type charging platform 100, the magnetic element 220 of the magnetic attraction type lamp 200 can be attracted to the magnetic attraction type charging platform 100 to avoid the magnetic element 120 to be attracted to the magnetic element 220, but the charging position of the magnetic attraction type lamp 200 does not correspond to the charging position of the magnetic attraction type charging platform 100.

For example, referring to fig. 3B, the magnetic attraction surfaces 1201 of two adjacent magnetic attraction elements 120 are respectively set to "N" pole and "S" pole, the magnetic surfaces 2201 corresponding to the magnetic elements 220 are respectively set to "S" pole and "N" pole, the magnetic attraction lamp 200 is close to the magnetic attraction charging platform 100 in a manner that the charging position of the magnetic attraction lamp 200 faces the charging position of the magnetic attraction charging platform 100, and the magnetic attraction elements 120 of the magnetic attraction charging platform 100 can attract the corresponding magnetic elements 220. When the magnetic surface 2201 of the magnetic attraction type lamp 200 with the "S" pole and the "N" pole corresponds to the magnetic attraction surface 1201 of the "S" pole and the "N" pole of the magnetic attraction type charging platform 100, the magnetic attraction surface 1201 and the magnetic surface 2201 repel each other to remind a user of the need to adjust the orientation of the magnetic attraction type lamp 200.

Optionally, the magnetic poles of the magnetic attraction surfaces 1201 of the adjacent magnetic attraction elements 120 are the same, the magnetic poles of the magnetic attraction surfaces 2201 of the adjacent magnetic elements 220 are the same, and the magnetic poles of the magnetic surfaces 2201 of the magnetic elements 220 are different from the magnetic poles of the magnetic attraction surfaces 1201 of the corresponding magnetic attraction elements 120.

Optionally, the magnetically attractive element 120 of the magnetically attractive charging platform 100 is implemented as a magnet, and the magnetic element 220 of the magnetically attractive light fixture 200 is implemented as a metal capable of being attracted by a magnet, such as but not limited to iron. Optionally, the magnetically attractive element 120 of the magnetically attractive charging platform 100 is implemented as a metal capable of being attracted by a magnet, such as but not limited to iron, and the magnetic element 220 of the magnetically attractive light fixture 200 is implemented as a magnet. That is, at least one of the magnetically attractive element 120 of the magnetically attractive charging platform 100 and the magnetic element 220 of the magnetically attractive lamp 200 is implemented as a magnet, and the other is a magnet or a metal capable of being attracted by a magnet. It should be understood by those skilled in the art that the embodiments of the magnetic attraction element 120 and the magnetic element 220 are only examples, and should not be construed as limiting the content and scope of the magnetic attraction type wireless charging and lighting device 1000 of the present invention.

Referring to fig. 2B, the charging body 110 includes a carrying case 1110, a transmitting coil 1120 and a power supply unit 1130, wherein the carrying case 1110 has a mounting cavity 1111, the carrying surface 1101 is formed on the carrying case 1110, the transmitting coil 1120 and the power supply unit 1130 are held in the mounting cavity 1111, and the transmitting coil 1120 is electrically connected to the power supply unit 1130. The magnetically attractive elements 120 are disposed on the carrying case 1110, and at least one of the magnetically attractive elements 120 is distributed around the transmitting coil 1120 at intervals. Preferably, the distance between the magnetic attraction element 120 and the transmitting coil 1120 is greater than or equal to 7.5mm, so as to avoid the magnetic attraction element 120 from affecting the normal operation of the transmitting coil 1120, thereby ensuring the normal use of the magnetic attraction type wireless charging lighting device 1000. More preferably, the distance between the magnetically attractive element 120 and the transmitting coil 1120 is 7.8 mm.

Referring to fig. 2A, the lamp body 210 further includes a lamp body 2110 and a receiving coil 2120, wherein the lamp body 2110 has a receiving cavity 2111, the contact surface 2101 is formed on the lamp body 2110, the receiving coil 2120 is received in the receiving cavity 2111 of the lamp body 2110, and the receiving coil 2120 is electrically connected to the lamp body 2110. At least one of the magnetic elements 220 is disposed on the lamp body 2110, and the magnetic elements 220 are distributed around the receiving coil 2120 at intervals. Preferably, the distance between the magnetic element 220 and the receiving coil 2120 is greater than or equal to 7.5mm, so as to avoid the influence of the magnetic element 220 on the normal operation of the receiving coil 2120, and further ensure the normal use of the magnetic wireless charging and illuminating device 1000. Preferably, the distance between the magnetic element 220 and the receiving coil 2120 is 7.8 mm.

According to a preferred embodiment of the present invention, the magnetic attraction element 120 of the magnetic attraction charging platform 100 and the magnetic attraction lamp have the same specific quantity of the magnetic element 220. Preferably, the magnetic attraction element 120 of the magnetic attraction type charging platform 100 and the magnetic element 220 of the magnetic attraction type lamp 200 are implemented as one, the magnetic attraction element 220 and the magnetic element 220 are distributed around the transmitting coil 1120 and the receiving coil 2120 at intervals, for example, the magnetic attraction element 120 is distributed on one side of the length direction or the width direction of the charging main body 110, the position of the magnetic element 220 of the magnetic attraction type lamp 200 corresponds to the magnetic attraction element 120 of the magnetic attraction type charging platform 100, and when the magnetic surface 2201 of the magnetic element 220 of the magnetic attraction type lamp 200 is attracted to the magnetic attraction surface 1201 of the magnetic attraction type magnetic attraction element 120 of the magnetic attraction type charging platform 100, the charging position of the lamp body 210 is opposite to the charging position of the charging main body 110.

Preferably, as shown in fig. 1 to 9, the magnetically attractive element 120 of the magnetically attractive charging platform 100 and the magnetic element 220 of the magnetically attractive lamp 200 are implemented in two, and the magnetically attractive element 220 and the magnetic element 220 are distributed around the transmitting coil 1120 and the receiving coil 2120 at intervals. Preferably, the two magnetically attracting elements 120 may also be spaced apart on the same side of the transmitting coil 1120. In an embodiment of the present invention, two of the magnetic attraction elements 120 are symmetrically distributed on both sides of the transmitting coil 1120, for example, two of the magnetic attraction elements 120 are located on both sides of the length direction of the charging platform 110, or two of the magnetic attraction elements 120 are symmetrically distributed on both sides of the width direction of the charging platform 110. In another embodiment of the present invention, two of the magnetic attraction elements 120 are distributed in the length direction of the charging platform, and the other one is distributed in the width direction of the charging platform. Magnetism is inhaled formula lamps and lanterns 200 the position of magnetic element 220 with magnetism is inhaled formula charging platform 100 magnetism inhale the position of component 120 and correspond each other, and then, magnetism is inhaled two of formula lamps and lanterns 200 magnetic element 220 quilt magnetism is inhaled two of formula charging platform 100 magnetism and is inhaled component 120 and attract each other to correct in the process of attracting each other, like this, further ensure through two position correction's mode the position of charging of lamps and lanterns body 210 with the position of charging main part 110 is just right, in order to ensure charging main part 110 does steadily lamps and lanterns body 210 charges.

Preferably, as shown in fig. 10, the magnetically attractive element 120 of the magnetically attractive charging platform 100 and the magnetic element 220 of the magnetically attractive lamp 200 are implemented in three. In an embodiment of the present invention, three magnetic attraction elements 120 are respectively arranged around the transmitting coil 1120 in a triangular shape, for example, one magnetic attraction element 120 of the three magnetic attraction elements 120 is arranged on one side of the charging body 110 in the width direction, and the other two magnetic attraction elements 120 are arranged on the other side of the charging body 11 in the width direction; or, one magnetic attraction element 120 is distributed on one side of the charging main body 110 in the width direction, and the other two magnetic attraction elements 120 are distributed on two sides of the charging main body 110 in the length direction; or, one magnetic attraction element 120 is distributed on one side of the length direction of the charging main body 110, and the other two magnetic attraction elements 120 are distributed on one side of the width direction of the charging main body 110; alternatively, one of the magnetic attraction elements 120 is distributed on one side of the charging main body 110 in the length direction, and the other two of the magnetic attraction elements 120 are distributed on the other side of the charging main body 11 in the length direction. In another embodiment of the present invention, three magnetic attraction elements 120 are spaced apart from each other and are held on the same side of the length or width direction of the charging body 110. Magnetism is inhaled formula lamps and lanterns 200 the position of magnetic element 220 with magnetism is inhaled formula charging platform 100 magnetism inhale the position of component 120 and correspond each other, and then magnetism is inhaled formula lamps and lanterns 200 three magnetic element 220 quilt magnetism is inhaled formula charging platform three magnetism is inhaled component 120 and is inhaled each other to correct automatically at the in-process that attracts each other the charging position of lamps and lanterns body 210 with the corresponding relation of the charging position of main part 110 that charges, like this, strengthen through the mode that three-point position corrected magnetism is inhaled formula charging platform 100 right the size of the magnetic attraction of magnetism type lamps and lanterns 200, further ensure the charging position of lamps and lanterns body 210 with the charging position of main part 110 that charges is just right, in order to ensure main part 110 that charges steadily for lamps and lanterns body 210 charges.

Alternatively, as shown in fig. 11, the magnetically attractive element 120 of the magnetically attractive charging platform 100 and the magnetic element 220 of the magnetically attractive light fixture 200 are implemented as four. The four magnetically attracting elements 120 surround the transmitting coil 1120 at intervals. For example, but not limited to, four magnetic attraction elements 120 are distributed at four corners of the charging body 110. The position of the magnetic element 220 of the magnetic attraction type lamp 200 corresponds to the position of the magnetic attraction type element 120 of the magnetic attraction type charging platform 100, and when the magnetic surfaces 2201 of the four magnetic elements 220 of the magnetic attraction type lamp 200 are respectively adsorbed on the magnetic attraction type surfaces 1201 of the four magnetic attraction type elements 120 of the magnetic attraction type charging platform 100, the charging position of the lamp body 210 is opposite to the charging position of the charging main body 110. Like this, further ensure through the mode that four-point position was corrected the position of charging of lamps and lanterns body 210 with the position of charging of main part 110 is just right to, and four-point position adsorbed mode makes formula charging platform 100 is inhaled to magnetism provides the bigger magnetic attraction of formula lamps and lanterns 200 is inhaled to magnetism, is favorable to adsorbing stably that the volume is great, and the quality is heavier formula lamps and lanterns 200 are inhaled to magnetism. It should be understood by those skilled in the art that the magnetic attraction of the magnetically-attracted charging platform 100 to the magnetically-attracted light fixture 200 can be increased by adding the magnetic attraction element 120.

In another preferred embodiment of the present invention, the number of the magnetic elements 220 of the magnetic attraction type lamp 200 is different from the number of the magnetic attraction type elements 120 of the magnetic attraction type charging platform 100. Preferably, the magnetic element 220 of the magnetic attraction type lamp 200 is implemented as one, the magnetic attraction type charging platform 100 is implemented as two, two of the magnetic attraction type charging platform 120 are distributed on two sides of the transmitting coil 1120, when the magnetic element 220 of the magnetic attraction type lamp 200 is attracted to any of the magnetic attraction type elements, the charging position of the lamp body 110 of the magnetic attraction type lamp 200 can be just opposite to the charging position of the charging main body 110. In this way, it is favorable to avoiding the user to need to adjust when charging the magnetism is inhaled formula lamps and lanterns 200 or the formula charging platform 100 is inhaled to magnetism position and orientation.

It should be noted that the magnetic attraction type charging platform 100, the magnetic attraction type charging platform 120 and the magnetic attraction type lamp 200 are only used as examples, and the specific number and distribution of the magnetic elements 220 cannot be limited by the content and range of the magnetic attraction type wireless charging lighting device 1000.

Preferably, the distance between the magnetic element 220 of the magnetic attraction lamp 200 and the receiving coil 2120 is the same as the distance between the magnetic element 120 of the magnetic attraction charging platform 100 and the transmitting coil 1120, so that when the magnetic element 220 is attracted to the magnetic element 120, the receiving coil 2120 is directly opposite to the transmitting coil 1120, so as to facilitate the magnetic attraction charging platform 100 to stably charge the magnetic attraction lamp 200.

Preferably, referring to fig. 1 to 11, the contact surface 2101 of the lamp body 210 has an identification region 21011, the identification region 21011 faces the receiving coil 2120, the contact surface 2101 is recessed inward to form an identification texture, and the region where the identification texture is located is defined as the identification region 21011. The carrying surface 1101 of the charging main body 110 has a prompt region 11011, the prompt region 11011 faces the transmitting coil 1120, the carrying surface 1101 is recessed inwards to form a prompt texture, and a region where the prompt texture is located is defined as the prompt region. When the magnetic element 220 of the magnetically-attracted lamp 200 is attracted to the magnetic element 120 of the magnetically-attracted charging platform 100, the lamp body 210 corresponds to the identification area 21011, and the receiving coil 2120 is opposite to the transmitting coil 1120. In other words, when the magnetic attraction type lamp 200 is placed on the carrying surface 1101 of the charging main body 110 in such a manner that the identification region 21011 corresponds to the prompt region 11011 of the magnetic attraction type charging platform 100, and the receiving coil 2120 is facing the transmitting coil 1120, the magnetic attraction type charging platform 100 can charge the magnetic attraction type lamp.

It should be noted that the specific embodiments of the identification region 2101 of the lamp body 210 and the prompt region 11011 of the charging main body 110 are only examples, and cannot be a limitation to the content and scope of the magnetic-type charging illumination device 1000 of the present invention.

Preferably, as shown in fig. 2A, the lamp body 210 further comprises an operating element 2130, wherein the operating element 2130 is rotatably mounted on the lamp body 2110, and the operating element 220 can be used for supporting the lamp body 2110. The included angle between the operating element 2130 and the lamp body 2110 is allowed to be adjusted, and the illumination angle and the illumination range of the lamp body 2110 can be changed by adjusting the angle between the operating element 2130 and the lamp body 2110. In addition, by adjusting the angle between the operating element 2130 and the lamp body 2110, the magnetic-attraction type lamp 200 can be allowed to be used in a suspended manner or carried, so that the flexibility and applicability of the magnetic-attraction type lamp 200 are improved.

Preferably, as shown in fig. 2A, the magnetically-attracted lamp 200 further includes an isolating layer 230, wherein the isolating layer 230 is covered on the magnetic surface 2201 of the magnetic element 220, so as to clean impurities such as iron filings adsorbed on the magnetic surface 2201 of the magnetic element 220. The specific implementation of the isolation layer 230 is not limited, for example, but not limited to, the isolation layer 230 is implemented as a plastic film, the plastic film is attached to the magnetic attraction surface 2201, when the user uses the magnetic attraction type lamp, impurities such as iron filings in the environment are easily adsorbed to the magnetic element 220, by setting the isolation layer 230, the magnetic element 220 and the adsorbed substance are isolated, so that the user can easily and quickly process the impurities such as the adsorbed iron filings before charging, so as to ensure that the magnetic attraction type element 220 is stably adsorbed to the magnetic attraction type element 120, and the magnetic attraction type charging platform 100 can stably charge the magnetic attraction type lamp 200. Preferably, the magnetically-attracted charging platform 100 also includes at least one isolation layer 230, and the isolation layer 230 of the magnetically-attracted charging platform 100 is covered on the magnetically-attracted surface 1201 of the magnetically-attracted element 120.

Preferably, as shown in fig. 9, the magnetically attractive element 120 of the magnetically attractive charging platform 100 and the magnetic element 220 of the magnetically attractive lamp 200 are embedded in the carrying case 1110 and the lamp body 2110, respectively. More preferably, the magnetic element 220 of the magnetically-attracted lamp 200 is embedded in the lamp body 2110 in a manner that the end portion protrudes from the contact surface 2101 of the lamp body 2110, and the magnetic element 120 of the magnetically-attracted charging platform 100 is embedded in the carrying housing 1110 in a manner of being recessed in the carrying housing 1110, so that the magnetic element 120 of the magnetically-attracted charging platform 100 and the magnetic element 220 of the magnetically-attracted lamp 200 can be positioned more quickly. It should be understood by those skilled in the art that the specific installation manner of the magnetic attraction element 120 of the magnetic attraction type charging platform 100 and the magnetic attraction type lamp 200 of the magnetic element 220 is only used as an illustration and cannot be a limitation to the content and scope of the magnetic attraction type wireless charging lighting device 1000 of the present invention.

Further, when the magnetic lamp 200 is held above the magnetic charging platform 100 in a manner that the magnetic surface 2201 of the magnetic element 220 faces the magnetic surface 1201 of the magnetic element 120 of the magnetic charging platform 100, and the magnetic lamp 200 and the magnetic charging platform 100 approach each other, the magnetic surface 2201 of the magnetic element 220 and the magnetic surface 1201 of the magnetic element 120 attract each other, and automatically correct the corresponding position, so that when the magnetic surface 2201 of the magnetic element 220 is attracted to the magnetic surface 1201 of the magnetic element 120, the receiving coil 2120 held in the accommodating cavity 2111 of the lamp body 2110 faces the transmitting coil 1120 held in the mounting cavity 1111 of the carrier housing 1110. The transmitting coil 1120 generates a current in the receiving coil 2120 by electromagnetic induction based on a certain frequency of alternating current, so that the power supply unit 1130 of the charging body 110 of the magnetic charging platform 100 can charge the lamp body 2110 of the lamp body 210 of the magnetic lamp 200. It should be understood by those skilled in the art that the power supply unit 1130 of the charging body 110 may be implemented as a built-in power supply or may be implemented to be electrically connected to an external power supply, and the specific embodiment of the power supply unit 1130 is not limited.

Preferably, when formula lamps and lanterns 200 are inhaled to magnetism is arranged in formula charging platform 100 magnetism is inhaled when the loading face 1101, formula lamps and lanterns 200 are inhaled to magnetism receive coil 2120 with formula charging platform 100 is inhaled to magnetism distance more than or equal to 2mm between transmitting coil 1120, in order to ensure formula charging platform 100 is inhaled to magnetism stably for formula lamps and lanterns 200 charges are inhaled to magnetism. More preferably, the distance between the receiving coil 2120 of the magnetically-attracted luminaire 200 and the transmitting coil 1120 of the magnetically-attracted charging platform 100 is equal to 2.5 mm.

Referring to fig. 1 to 7B, in some specific embodiments of the magnetic wireless charging illumination device 1000 of the present invention, the carrying surface 1101 of the charging body 110 of the magnetic charging platform 100 can be switched between a strong magnetic state and a weak magnetic state. When the carrying surface 1101 is in the strong magnetic state, the magnetic type charging platform 100 is opposite to the magnetic type lamp 200 generating strong magnetic attraction, so that the magnetic type lamp 200 is stably attracted to the magnetic type charging platform 100 for power supply. When the loading face 1101 is in during the weak magnetic state, magnetism is inhaled formula charging platform 100 and is right the magnetism appeal of magnetism formula lamps and lanterns 200 is inhaled to magnetism is relatively weak, and the user can singlehanded take fast and charge magnetism is inhaled formula lamps and lanterns 200, and then satisfies the different operation demand of user, has improved magnetism is inhaled formula wireless lighting device 1000 that charges.

Referring to fig. 1 to 4, in a preferred embodiment of the present invention, the carrying case 1110 of the charging body 110 of the magnetic charging platform 100 has an assembling space 1112, the magnetic element 120 is movably held in the assembling space 1112, and by changing the relative position of the magnetic surface 1201 of the magnetic element 120 and the carrying surface 1101 of the charging body 110, the carrying surface 1101 can be switched between the strong magnetic state and the weak magnetic state, so as to change the magnetic attraction of the magnetic charging platform 100 to the magnetic lamp 200.

Preferably, referring to fig. 2B, the magnetically attractive charging platform 100 further includes a mounting member 130, wherein the mounting member 130 is movably mounted in the mounting space 1112 of the carrying housing 1110, the magnetically attractive member 120 is fixed to the mounting member 130, and when the mounting member 130 rotates relative to the carrying housing 1110, the magnetically attractive member 120 and the mounting member 130 rotate synchronously to change the relative position between the magnetically attractive surface 1201 of the magnetically attractive member 120 and the carrying surface 1101.

Referring to fig. 2B, specifically, the bearing housing 1110 has two assembling holes 1113, the two assembling holes 1113 are formed in an inner wall defining the assembling space 1112, the assembling holes 1113 are oppositely disposed, the assembling holes 1113 are communicated with the assembling space 1112, the assembling element 130 includes a holding body 1301 and two assembling arms 1302, the two assembling arms 1302 respectively extend on two sides of the holding body 1301, and the two assembling arms 1302 of the assembling element 130 are respectively rotatably mounted in the assembling holes 1113, so that the holding body 1301 is rotatably held in the assembling space 1112. Further, the magnetic attraction element 120 is embedded in the holding body 1301, and the magnetic attraction element 120 rotates synchronously with the holding body 1301, so as to change the relative position between the magnetic attraction surface 1201 of the magnetic attraction element 120 and the carrying surface 1101 of the carrying shell 1110, so that the carrying surface 1101 is switched between the strong magnetic state and the weak magnetic state.

Referring to fig. 3A and 3C, in this specific embodiment, when the magnetic attraction surface 1201 of the magnetic attraction element 120 faces the carrying surface 1101 of the charging body 110, and the plane of the magnetic attraction surface 1201 is parallel to or coincides with the plane of the carrying surface 1101 of the charging body 110, the carrying surface 1101 of the charging body 110 is in the strong magnetic state, and at this time, the magnetic attraction type charging device 100 can generate a strong magnetic attraction force to the magnetic attraction type lamp 200, so that the magnetic attraction type lamp 200 is attracted to the magnetic attraction type charging platform 100 to replenish electric quantity. In addition, the magnetic attraction type lamp 200 and the magnetic attraction type charging platform 100 are not easy to separate from each other when being charged in such a way, so that the magnetic attraction type lamp 200 and the magnetic attraction type charging platform 100 can be kept perpendicular to the ground in the charging process, and various use options of a user can be provided.

Referring to fig. 4, before the magnetic attraction type charging lamp 200 is close to the magnetic attraction type charging platform 100, the assembling element 130 is rotated, and the orientation of the magnetic attraction surface 1201 of the magnetic attraction element 120 is changed, so that the magnetic attraction surface 1201 of the magnetic attraction element 120 is far away from the carrying surface 1101 of the charging main body 110, and thus, the carrying surface 1101 is switched from the strong magnetic state to the weak magnetic state, thereby reducing the magnetic attraction force of the magnetic attraction type charging platform 100 on the magnetic attraction type charging platform 200. When the user places the magnetic-attraction type lamp 200 on the carrying surface 1101 of the charging main body 110 and makes the receiving coil 2130 of the lamp body 210 directly face the transmitting coil 1130 of the charging main body 110, the charging main body 110 charges the lamp body 210. And when the user needs to use when the formula lamps and lanterns 200 are inhaled to magnetism, can the one hand take and be charging inhale formula lamps and lanterns 200, the operation is swift convenient. The rotation in the opposite direction may switch the carrying surface 1101 of the charging body 110 from the weak magnetic state to the strong magnetic state.

Preferably, referring to fig. 2B, the mounting arm 1302 has a cylindrical structure, that is, the cross section of the mounting arm 1302 is circular, the mounting hole 1113 is a circular hole, and the cross section of the mounting arm 1302 and the size of the mounting hole 1113 are matched with each other, so that the mounting arm 1302 can rotate in the mounting hole 1113 without any pole and the orientation of the mounting element 130 and the magnetic attraction element 120 is changed. It should be noted that an angle that the assembling element 130 of the magnetic attraction type charging platform 100 can rotate relative to the charging body 110 is not limited, for example, but not limited to, the assembling element 130 can rotate 90 °, 180 °, 270 °, or 360 ° relative to the charging body 110, so as to drive the magnetic attraction element 120 to rotate 90 °, 180 °, 270 °, or 360 ° relative to the charging body 110, so that the bearing surface 1101 of the charging body 110 is switched between the strong magnetic state and the weak magnetic state.

Preferably, the magnetically attractive charging platform 100 further comprises at least one braking element 170, wherein the braking element 170 is mounted on the carrying housing 1110 of the charging body 110, the mounting arm 1302 of the mounting element 130 is connected to the braking element 170 in a brakable manner, the braking element 170 can prevent the mounting arm 1302 of the mounting element 130 from rotating, so that the mounting element 130 can be held at a fixed position, and the orientation of the magnetically attractive surface 1201 of the magnetically attractive element 120 is also fixed. For example, but not limited to, pressing the braking element 170, the force of the braking element 170 resisting the rotation of the mounting arm 1302 is increased, so that the mounting arm 1302 cannot rotate, and pressing the braking element 170 again reduces the resistance force of the mounting arm 1302, so as to allow the mounting element 130 to continue to be rotated, thereby allowing the orientation of the magnetically attractive surface 1201 of the magnetically attractive element 120 to be adjusted.

Referring to fig. 5A and 5B, in this specific embodiment of the magnetic wireless charging illumination device 1000 of the present invention, the magnetic attraction element 120 is movably held in the assembly space 1112 of the bearing housing 1110 up and down, and the vertical distance between the magnetic attraction surface 1201 of the magnetic attraction element 120 and the bearing surface 1101 of the bearing housing 1110 is allowed to be adjusted, so that the bearing surface 1101 is switched between the strong magnetic state and the weak magnetic state by changing the distance between the magnetic attraction surface 1201 and the bearing surface 1101.

Specifically, referring to fig. 5A and 5B, the assembling element 130 includes a fixed body 131, a movable body 132 and an elastic member 133, wherein the elastic member 133 is fixed in the assembling space 1112 of the carrying case 1110, and the extending direction of the elastic member 133 is consistent with the height extending direction of the magnetic charging platform 100, and the movable body 132 movably extends from the elastic member 133 to the fixed body 133, and enables the fixed body 131 to be telescopically held in the assembling space 1112 of the carrying case 1110. The magnetic attraction element 120 is embedded in the fixing body 133, and the magnetic attraction element 120 moves along with the movement of the fixing body 133 to change a vertical distance between the magnetic attraction surface 1201 of the magnetic attraction element 120 and the carrying surface 1101 of the charging body 110, so that the carrying surface 1101 is switched between the strong magnetic state and the weak magnetic state.

Referring to fig. 5A, in this specific embodiment, when the elastic member 133 of the assembling element 130 is in the initial position, the magnetic attraction surface 1201 of the magnetic attraction element 120 is close to the carrying surface 1101 of the charging body 110, or the plane of the magnetic attraction surface 1201 is coincident with the plane of the carrying surface 1101 of the charging body 110, at this time, the carrying surface 1101 of the charging body 110 is in the strong magnetic state, and the magnetic attraction type charging device 100 can generate a strong magnetic attraction force on the magnetic attraction type lamp 200, so that the magnetic attraction type lamp 200 is attracted to the magnetic attraction type charging platform 100 for power replenishment.

Referring to fig. 5B, before the magnetic attraction type charging light fixture 200 approaches the magnetic attraction type charging platform 100, the fixing body 131 is pressed downward, the fixing body 131 and the movable body 132 move downward, and the elastic member 133 is pressed. Further, the fixed body 131 and the movable body 132 are held in a fixed position, the elastic member 133 is in a compressed state, at this time, the magnetic attraction surface 1201 of the magnetic attraction element 120 mounted on the fixed body 131 is far away from the carrying surface 1101 of the charging body 110, the magnitude of the magnetic attraction force of the magnetic attraction type charging platform 100 on the magnetic attraction type lamp 200 is reduced, and the carrying surface 1101 is switched from the strong magnetic state to the weak magnetic state. When the fixed body 131 is pressed again, the elastic force of the elastic member 133 tending to restore the initial state pushes the movable body 132 to move and drive the fixed body 131 and the magnetic attraction element 120 to move upward, the magnetic attraction surface 1201 of the magnetic attraction element 120 is close to the bearing surface 1101 of the charging body 110, the magnetic attraction force of the magnetic attraction type charging platform 100 on the magnetic attraction type lamp 100 is enhanced, that is, the bearing surface 1101 of the charging body 110 is switched from the weak magnetic state to the strong magnetic state. For example, but not limited to, the movable body 132 is a ratchet mechanism, and the elastic member 133 is a spring.

Referring to fig. 6A and 6B, in this specific embodiment of the magnetic wireless charging illumination device 1000 of the present invention, the magnetic attraction element 120 is held in the assembling space 1112 of the bearing housing 1110 in a left-right sliding manner, and the bearing surface 1101 of the charging main body 110 is switched between the strong magnetic state and the weak magnetic state by exposing and shielding the magnetic attraction surface 1201 of the magnetic attraction element 120.

Referring to fig. 6A and 6B, specifically, the carrying case 1110 further has a receiving groove 1113, an opening of the receiving groove 1113 is communicated with the assembling space 1112 of the carrying case 1110, the assembling element 130 is movably mounted on the carrying case 1110 of the charging main body 110, and the assembling element 130 can move between the assembling space 1112 and the receiving groove 1113 and drives the magnetic element 120 mounted on the assembling element 130 to move between the assembling space 112 and the receiving groove 1113. Further, when the magnetic element 120 is located in the assembling space 112, the magnetic surface 1201 of the magnetic element 120 is exposed, there is no shielding between the magnetic surface 1201 of the magnetic element 120 and the carrying surface 1101 of the charging body 110, and the magnetically-attracted charging platform 100 can generate a strong magnetic attraction force on the magnetically-attracted lamp 200. When the magnetic element 120 moves into the receiving slot 1113, the magnetic attraction surface 1201 of the magnetic element 120 is shielded by the slot wall defining the receiving slot 1113, and the magnetic attraction element 120 is hidden in the receiving slot 1113 of the carrying housing 113. The magnetic charging platform 100 can generate a magnetic attraction force to the magnetic lamp 200 to weaken.

The fitting member 130 includes a movable body 131 and an extension portion 132, and the extension portion 132 integrally extends outward from an outer side surface of the movable body 131 in a width direction of the movable body 131. Further, the magnetic attraction element 120 is fixed to the movable body 131, and the cross-sectional dimension of the movable body 131 is matched with the dimension of the receiving groove 1113, so as to allow a user to push or pull the extension portion 132 to move the movable body 131 in the assembling space 112 and the receiving groove 1113, so as to change the magnetic attraction force of the magnetic attraction charging platform 100 on the magnetic attraction lamp 200.

Referring to fig. 7A and 7B, in the specific embodiment of the magnetic wireless charging illumination device 1000 of the present invention, the magnetic attraction element 120 is embedded in the bearing housing 1110, and a receiving groove 1114 is formed between the magnetic attraction surface 121 of the magnetic attraction element 120 and the bearing housing 1110 of the charging body 110. The magnetically-attractive charging platform 100 further includes a shielding element 140, wherein the shielding element 140 is movably mounted on the carrying case 1110 of the charging body 110, and the shielding element 140 can be held in the receiving groove 1111 and located above the magnetically-attractive surface 1201 of the magnetically-attractive element 120, or the shielding element 140 is separated from the receiving groove 1114 to expose the magnetically-attractive surface 1201 of the magnetically-attractive element 120. Thus, when the magnetic attraction surface 1201 of the magnetic attraction element 120 is not shielded, the carrying surface 1101 of the charging body 110 is in the strong magnetic state, and the magnetic attraction charging platform 100 generates a strong magnetic attraction force on the magnetic attraction lamp 200. When the shielding element 140 shields the magnetically attracting surface 1201 of the magnetically attracting element 120, the magnetic attraction force generated by the magnetically attracting type charging platform 100 on the magnetically attracting type lamp 200 is weakened. In this way, the carrying surface 1101 of the charging body 110 of the magnetic attraction type charging platform 100 is switched between the strong magnetic state and the weak magnetic state. It should be noted that the upper surface of the shielding element 14 above the magnetic attraction element 120 is not higher than the bearing surface 1101 to ensure that the contact surface 2101 of the lamp body 210 can be attached to the bearing surface 1101, and the charging main body 110 can stably supply power to the lamp body 210.

Preferably, the carrying shell 1110 has a sliding groove 1115, and the shielding element 140 is retained in the sliding groove 1115 of the carrying shell 1110 in a manner of sliding left and right relative to the magnetically attracting element 120. Specifically, the shielding element 140 includes a shielding portion 141 and an operating portion 142, the operating portion 142 integrally extends to the shielding portion 141, the sliding groove 1115 is located at one side of the magnetic element 120, so as to push the shielding portion 141 of the shielding element 140 into the sliding groove 1115 by pushing the operating portion 142, so that the magnetic attraction surface 1201 of the magnetic attraction surface 120 is not shielded, and the shielding portion 141 of the shielding element 140 can be hidden in the sliding groove 1115, so as to avoid increasing the overall volume of the magnetic attraction type charging platform 100. At this time, the carrying surface 1101 of the charging body 110 is in the strong magnetic state. The operation portion 142 is pulled in the opposite direction, so that the shielding portion 141 of the shielding element 140 enters the receiving groove 1114, and the shielding portion 141 shields the magnetic attraction surface 1201 of the magnetic attraction element 120. At this time, the carrying surface 1101 of the charging body 110 is in the weak magnetic state. Preferably, the surface of the operating portion 142 is recessed inward to form a groove, so that the user can move the shielding member 140.

In another preferred embodiment of the present invention, the shielding element 140 is pivotally connected to one side of the carrying case 1110, and the shielding element 140 can move toward the magnetic attraction surface 1201 of the magnetic attraction element 120, cover the magnetic attraction surface 1201 of the magnetic element 120, and can also keep away from the magnetic attraction surface 1201 of the magnetic attraction element 120, so as to keep the magnetic attraction surface 120 exposed all the time. In this way, the carrying surface 1101 of the charging body 110 is switched between the weak magnetic state and the strong magnetic state.

It should be understood by those skilled in the art that the specific structure of the magnetic attraction type charging platform 100 is merely an example, and the manner of allowing the carrying surface 1101 of the charging body 110 of the magnetic attraction type charging platform 100 to be switched between the strong magnetic state and the weak magnetic state is not limited.

It should be noted that, although when the carrying surface 1101 of the charging main body 110 of the magnetic type charging platform 100 is in the magnetic weakening state, the magnetic attraction element 120 of the magnetic type charging platform 100 can attract the magnetic element 220 of the magnetic type lamp 200 all the time, in the process of attracting the magnetic element 220 and the magnetic attraction element 120 to each other, the receiving coil 2120 of the lamp body 210 is correctively corresponding to the transmitting coil 1120 of the charging main body 110, so that the magnetic type charging platform 100 stably charges the magnetic type lamp 200.

Referring to fig. 1 to 7B, preferably, the carrying case 1110 of the charging body 110 of the magnetically-attracted charging platform 100 has at least one mounting hole 1116, wherein the mounting hole 1116 penetrates through the carrying case 1110, and the magnetically-attracted charging platform 100 can be mounted in a working position through the mounting hole 1116. For example, a screw or bolt is inserted through the mounting hole 1116 and then fixed to the desk or the wall, so as to mount the magnetic charging platform 100 on the desk or the wall. Preferably, the mounting holes 1116 are implemented in two, and two mounting holes are symmetrically distributed on the carrier case 1110.

Referring to fig. 2B, in this specific embodiment of the present invention, the magnetic charging platform 100 further includes at least one adsorbing element 150, wherein the adsorbing element 150 is installed on the back surface of the carrying case 1110 of the charging body 110, and the back surface of the carrying case 1110 is opposite to the carrying surface 1101, so that the magnetic charging platform 100 is adsorbed on the working position by the adsorbing element 150. For example, but not limited to, the attraction element 150 is implemented as a magnet, so that the magnetic attraction type charging platform 100 can charge the magnetic attraction type lamp 200 in a manner of being attracted to a metal plate.

Referring to fig. 1 to 7B, the magnetic attraction type charging platform 100 further includes at least one prompting device 160, wherein the prompting element 160 is communicably connected to the charging main body 110, the prompting element 160 is capable of acquiring the working state of the charging main body 110 and sending a corresponding prompting signal according to the working state of the charging main body 110, so that a user can acquire the working state of the magnetic attraction type charging platform 100.

Preferably, the prompting device 160 is a signal lamp 161, wherein the signal lamp 161 is communicably connected to the charging main body 110, and the signal lamp 161 changes a light-ray characteristic of the generated light according to the working state of the charging main body 110, so as to facilitate a user to obtain the working state of the magnetic-type charging platform 100, such as starting charging, charging failure, charging completion, and the like. Such as, but not limited to, light color, light brightness, light change time, etc.

For example, when the magnetic type lamp 200 is placed on the carrying surface 1101 of the charging body 110, and the charging body 110 supplies power to the magnetic type lamp 200, at this time, the signal lamp is on and emits red light, and when the charging body 110 is the magnetic type lamp 200 after charging is completed, the signal lamp 161 is turned off or emits yellow or other colors of light, so that the user can clearly know the charging state of the magnetic type lamp 200.

Preferably, the prompting device 160 is a sound generator 162, the sound generator 162 is communicably connected to the charging main body 110, and the sound generator 162 changes a sound characteristic of sound generated by the sound generator 162 according to an operating state of the charging main body 110, so that a user can conveniently obtain an operating state of the magnetic attraction type charging platform 100, such as start of charging, charging failure, completion of charging, and the like. Such as, but not limited to, sound type, time of change of sound, etc.

For example, when the magnetic-attraction-type lamp 200 is placed on the carrying surface 1101 of the charging body 110, but the charging body 110 cannot normally charge the magnetic-attraction-type lamp 200, the sound generator 162 generates a continuous and sudden "dripping" sound or a buzzer sound to attract the attention of the user and timely confirm the cause of the failure, and when the charging body 110 supplies power to the magnetic-attraction-type lamp 200, the sound generator 162 generates a short "dripping" sound. For example, but not limiting of, the sounder 162 is implemented as a buzzer.

It should be noted that a plurality of the prompting devices 160 can be combined for use, so that the user can obtain the working state of the magnetic-type charging platform 100 in time. In addition, the specific embodiment of the signal lamp 161 is only for illustration and should not be construed as a limitation to the content and scope of the magnetic wireless charging and lighting device 1000 of the present invention.

According to another aspect of the present invention, the present invention further provides a working method of the magnetic wireless charging illumination device 1000, wherein the working method further comprises the following steps:

(a) in the process of attracting at least one magnetically attracting element 120 of the magnetically attracted charging platform 100 and the magnetic element 220 of the magnetically attracted lamp 200 to each other, automatically correcting the corresponding positions of the transmitting coil 1120 of the charging main body 110 of the magnetically attracted charging platform 100 and the receiving coil 2120 of the lamp body 210 of the magnetically attracted lamp 200; and

(b) the charging body 110 charges the lamp body 210 in such a manner that the transmitting coil 1120 faces the receiving coil 2120 of the lamp body 210.

Preferably, in the above method, the magnetically attracting element 120 and the magnetic element 220 with different magnetic poles attract each other to correct the corresponding positions of the magnetically attracted charging platform 100 and the lamp body 210.

Preferably, in the above method, further comprising the step of: the magnetic strength of the carrying surface 1101 of the charging body 110 is changed so that the carrying surface 1101 is switched between the strong magnetic state and the weak magnetic state.

According to another aspect of the present invention, the utility model further provides another working method of the magnetic wireless charging and lighting device 1000, wherein the working method further comprises the following steps:

(a) allowing the carrying surface 1101 of the charging body 110 of the magnetic charging platform 100 to be switched between the strong magnetic state and the weak magnetic state;

(b) attracting the at least one magnetic element 220 of the magnetically attractive lamp 200 to the at least one magnetic element 120 of the magnetically attractive charging platform 100; and

(c) the charging main body 110 charges the lamp body 210 in such a manner that the transmitting coil 1120 corresponds to the receiving coil 2120 of the lamp body 210.

Specifically, when the carrying surface 1101 is in the strong magnetic state, the magnetic attraction type charging platform 100 generates a strong magnetic attraction force on the magnetic attraction type lamp 200, so that the magnetic attraction type lamp 200 is stably attracted to the magnetic attraction type charging platform 100 to replenish the electric quantity. When the loading face 1101 is in during the weak magnetic state, magnetism is inhaled formula charging platform 100 and is right the magnetism appeal of magnetism formula lamps and lanterns 200 is inhaled to magnetism is relatively weak, and the user can singlehanded take fast and charge magnetism is inhaled formula lamps and lanterns 200, and then satisfies the different operation demand of user, has improved magnetism is inhaled formula wireless lighting device 1000 that charges.

In a preferred embodiment of the present invention, in the step (a), the carrying surface 1101 is switched between the strong magnetic state and the weak magnetic state in a manner of changing the orientation of the magnetic attraction surface 1201 of the magnetic attraction element 120. Preferably, in the above method, the mounting element 130 of the magnetically attractive charging platform 100 is rotated to change the orientation of the magnetically attractive surface 1201 of the magnetically attractive element 120 fixed to the mounting element 130.

Preferably, in the above method, the assembling element 130 is pressed to switch the carrying surface 1101 between the strong magnetic state and the weak magnetic state in a manner of changing the vertical distance between the magnetic attraction surface 1201 of the magnetic attraction element 120 and the carrying surface 1101 of the charging body 110.

In some preferred embodiments of the present invention, in the above method, the magnetic attraction surface 1201 of the magnetic attraction element 120 is exposed, so that the bearing surface 1101 of the charging body 110 is in the strong magnetic state. Preferably, the assembling component 130 is pulled so that the magnetic attraction component 120 enters the assembling space 1112 from the accommodating groove 1113. Preferably, the blocking element 140 is slid away from the magnetically attractive surface 1201 of the magnetically attractive element 120.

Further, the magnetic attraction surface 1201 of the magnetic attraction element 120 is shielded, so that the bearing surface 1101 of the charging body 110 is in the weak magnetic state. Preferably, the assembling element 130 is pushed so that the magnetic attracting element 120 enters the receiving groove 1113 from the assembling space 1112. Preferably, the shielding element 140 is slid and the shielding element 140 is held directly above the magnetic surface 1201 of the magnetic element 120 to shield the magnetic surface 1201 of the magnetic element 120.

It will be appreciated by persons skilled in the art that the above embodiments are only examples, wherein features of different embodiments may be combined with each other to obtain embodiments which are easily imaginable in accordance with the disclosure of the invention, but which are not explicitly indicated in the drawings.

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 (37)

1. The utility model provides a formula charging platform is inhaled to magnetism, its characterized in that includes:

the charging body comprises a bearing shell, a transmitting coil and a power supply unit, wherein the transmitting coil and the power supply unit are arranged in the bearing shell, and the transmitting coil is electrically connected with the power supply unit; and

at least one magnetic attraction element, wherein the magnetic attraction element is distributed around the transmitting coil of the charging body at intervals.

2. The magnetically-attractable charging platform of claim 1, wherein the magnetically-attractable elements are implemented in two, the two magnetically-attractable elements being symmetrically distributed on both sides of the transmitter coil.

3. The magnetically-attractable charging platform of claim 1, wherein the magnetically-attractable elements are implemented in two, the two magnetically-attractable elements being spaced apart on a same side of the transmitter coil.

4. The magnetically-attractable charging platform of claim 1, wherein the magnetically-attractable elements are implemented in three, three surrounding the transmitter coil.

5. The magnetically-attractable charging platform of claim 1, wherein the magnetically-attractable elements are implemented as four, four of the magnetically-attractable elements surrounding the transmitter coil.

6. The magnetically-attractable charging platform according to any one of claims 1-5, wherein a distance between the magnetically-attractable element and the transmitter coil is greater than or equal to 7.5 mm.

7. The magnetically-attractable charging platform of claim 6, wherein a distance between the magnetically-attractable element and the transmitter coil is equal to 7.8 mm.

8. The magnetically-attractable charging platform according to claim 6, wherein the magnetically-attractable element is a magnet.

9. The magnetically-attractable charging platform according to claim 8, wherein a magnetically-attracting surface of adjacent magnetically-attracting elements has different poles.

10. The magnetically-attractable charging platform according to claim 8, further comprising a mounting member rotatably mounted to the carrier housing, the magnetically-attractable member being secured to the mounting member.

11. The magnetically-attractable charging platform according to claim 10, further comprising a braking member, wherein the mounting member is brazeably coupled to the braking member.

12. The magnetically-attractable charging platform as claimed in claim 8, further comprising a mounting member telescopically mounted to the housing, the magnetically-attractable member being movably disposed to the charging body by being mounted to the mounting member.

13. The magnetically-attractable charging platform of claim 8, further comprising a shield member movably retained over the magnetically-attracting surface of the magnetically-attractable member.

14. The magnetic charging platform according to claim 8, wherein the magnetic charging platform further comprises an assembly component, the housing has an assembly space and a receiving groove, the opening of the receiving groove communicates with the assembly space, the magnetic component is installed in the assembly component, the assembly component can move between the assembly space and the receiving groove, and when the magnetic component enters the receiving groove, the magnetic surface of the magnetic component is defined and blocked by the groove wall of the receiving groove, and when the magnetic component enters the assembly space, the magnetic surface of the magnetic component is exposed.

15. The magnetically-attractable charging platform of claim 9, wherein the magnetically-attractable element is embedded in the carrying housing of the charging body.

16. The magnetically-attractable charging platform as claimed in claim 8, further comprising an isolation layer covering a surface of the magnetically-attractable element.

17. The magnetically-attractable charging platform as claimed in claim 8, wherein the magnetically-attractable charging platform further has a bearing surface, wherein the bearing surface has a prompt area, and the prompt area is opposite to the transmitter coil.

18. The magnetically-attractable charging platform according to claim 17, wherein the carrier housing has at least one mounting hole extending therethrough.

19. The magnetically-attractable charging platform according to claim 18, further comprising at least one suction element, wherein the suction element is mounted to a back side of the carrying housing.

20. The magnetic-type charging platform of claim 19, wherein the magnetic-type charging platform further comprises at least one prompting device, wherein the prompting device is communicatively coupled to the charging body.

21. The magnetically-attractable charging platform according to claim 20, wherein the prompting device is implemented as a signal light and/or a sound emitter.

22. The utility model provides a formula charging platform is inhaled to magnetism, its characterized in that includes:

a charging body having a carrying surface, the charging body further comprising a carrying housing, a transmitting coil and a power supply unit, wherein the transmitting coil, the power supply unit and the power supply unit are disposed in the carrying housing, the transmitting coil is electrically connected to the power supply unit, and the carrying surface is formed on the carrying housing; and

the magnetic attraction element is provided with a magnetic attraction surface and is arranged on the bearing shell of the charging main body, and the relative position between the magnetic attraction surface of the magnetic attraction element and the bearing surface of the charging main body is allowed to be adjusted, so that the bearing surface of the charging main body can be switched between a strong magnetic state and a weak magnetic state.

23. The magnetically-attractable charging platform as claimed in claim 22, further comprising a mounting member rotatably mounted to the carrying case, the magnetically-attractable member being movably disposed to the charging body by being mounted to the mounting member.

24. The magnetically-attractable charging platform according to claim 23, further comprising a brake member, wherein the mounting member is brazeably coupled to the mounting member.

25. The magnetically-attractable charging platform as claimed in claim 22, further comprising a mounting member telescopically mounted to the carrying case, the magnetically-attractable member being movably disposed to the charging body by being mounted to the mounting member.

26. The magnetic charging platform of claim 22, wherein the magnetic charging platform further comprises an assembly component, the housing has an assembly space and a receiving slot, the opening of the receiving slot communicates with the assembly space, the magnetic component is installed in the assembly component, the assembly component can move between the assembly space and the receiving slot, and when the magnetic component enters the receiving slot, a magnetic attraction surface of the magnetic component is defined by a slot wall of the receiving slot, and when the magnetic component enters the assembly space, the magnetic attraction surface of the magnetic component is exposed.

27. The magnetically-attractable charging platform of claim 22, further comprising a shield member movably retained over a magnetically-attracting surface of the magnetically-attractable member.

28. The magnetically-attractable charging platform according to any one of claims 22-27, wherein the magnetically-attractable element is a magnet.

29. The magnetically-attractable charging platform of claim 28, wherein a magnetically-attracting surface of adjacent magnetically-attracting elements has different poles.

30. The magnetically-attractable charging platform of claim 29, wherein a distance between the magnetically-attractable element and the transmitter coil is greater than or equal to 7.5 mm.

31. The magnetically-attractable charging platform of claim 30, wherein a distance between the magnetically-attractable element and the transmitter coil is equal to 7.8 mm.

32. The magnetically-attractable charging platform of claim 31, wherein the carrying housing of the charging body has at least one mounting hole extending therethrough.

33. The magnetically-attractable charging platform of claim 32, further comprising at least one suction element, wherein the suction element is mounted to a back side of the carrier housing.

34. The magnetic-type charging platform of claim 33, wherein the magnetic-type charging platform further comprises at least one prompting device, wherein the prompting device is communicatively coupled to the charging body.

35. The magnetically-attractable charging platform according to claim 34, wherein the prompting device is implemented as a signal light and/or a sound emitter.

36. The magnetically-attractable charging platform of claim 35, further comprising an isolation layer covering a surface of the magnetically-attractable element.

37. The magnetic charging platform of claim 36, further comprising a carrying surface, wherein the carrying surface has a prompting area, and the prompting area faces the transmitter coil.

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