CN209860640U - Wireless charging device, vehicle-mounted wireless charging panel and vehicle - Google Patents

Abstract

The utility model provides a wireless charging device, on-vehicle wireless charging panel and vehicle relates to vehicle technical field. The wireless charging device includes: the mounting seat is provided with an accommodating groove; the wireless charging module is arranged in the charging plate, and the charging plate is rotationally connected with the accommodating tank and is used as a sealing cover of the accommodating tank; after the charging plate rotates for a preset angle relative to the accommodating groove, the wireless charging module is in a state of being electrically communicated, and the accommodating groove is covered by the charging plate. The problem of the easy deposition of holding tank that has wireless charging among the prior art can be solved to wireless charging device, the charging panel rotate just with the intercommunication of the power of vehicle after presetting the angle simultaneously, this kind of mode of setting can play the effect of saving car and coming individual self electric energy.

Description

Wireless charging device, vehicle-mounted wireless charging panel and vehicle

Technical Field

The utility model relates to the technical field of vehicles, especially, relate to a wireless charging device, on-vehicle wireless charging panel and vehicle.

Background

At present, in order to make the vehicle more convenient for the user to use to improve user's experience, the auxiliary instrument board of vehicle can set up some accommodation space and be used for the placing object article, and set up wireless charging position and supply the user to charge for electronic equipment is wireless.

However, the existing wireless charging position is in the shape of a containing groove, the electronic equipment needs to be placed in the containing groove for wireless charging, the containing groove for placing the wireless charging equipment is easy to accumulate dust and inconvenient to clean, convenience is brought to users, and meanwhile, the technical problem of inconvenience in cleaning is also brought.

Therefore, the above technical problems are urgently needed to be solved.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the utility model provides a wireless charging device, on-vehicle wireless charging panel and vehicle is provided, for solving above-mentioned problem, the utility model mainly provides following technical scheme:

an embodiment of the utility model provides a wireless charging device, include:

the mounting seat is provided with an accommodating groove;

the wireless charging module is arranged in the charging plate, and the charging plate is rotationally connected with the accommodating tank and is used as a sealing cover of the accommodating tank;

after the charging plate rotates for a preset angle relative to the accommodating groove, the wireless charging module is in a state of being electrically communicated, and the accommodating groove is covered by the charging plate.

Specifically, the middle parts of two opposite side edges of the charging plate are rotatably connected with the middle parts of two opposite side walls of the accommodating groove, and the charging plate can turn over in the accommodating groove;

the two surfaces of the charging plate are respectively a first surface and a second surface, the first surface is a decorative surface, the second surface is provided with a tray groove, and when the second surface turns to a position vertically upwards, the wireless charging module is in a state of being capable of being electrically communicated.

Specifically, one side edge of the charging plate is attached to a first side wall of the accommodating groove, and two ends of the side edge are rotatably connected with two side walls connected with two ends of the first side wall and can be turned into the accommodating groove;

after the charging plate rotates a preset angle in the accommodating groove, the accommodating groove is exposed and used for accommodating articles, the charging plate rotates the preset angle to a horizontal state, and the wireless charging module is in a state of being electrically communicated.

Specifically, a first electric connection end is arranged on one side of the charging plate rotatably connected with the accommodating groove, a second electric connection end is arranged on the corresponding side wall of the accommodating groove, and the first electric connection end is rotatably connected with the second electric connection end;

after the first electric connection end rotates for a preset angle relative to the second electric connection end, the first electric connection end is in conductive communication with the second electric connection end.

Specifically, the first electric connection end is in a shape of an arc plate, and the first electric connection end is formed by combining a first positive electrode body and a first negative electrode body which are connected with the wireless charging module;

the second electric connection end is in a circular through cylinder shape and is formed by combining a second positive electrode body and a second negative electrode body which are connected with a power supply of a vehicle;

the first electric connection end is arranged in the through hole of the second electric connection end and is in rotating connection, and when the charging plate is turned over for a preset angle, the first positive electrode body and the first negative electrode body are respectively and correspondingly electrically connected with the second positive electrode body and the second negative electrode body.

Specifically, the first electrical connection end is a semicircular plate, the first positive electrode body is a long strip-shaped sheet body which is arranged in the semicircular plate and has an arc-shaped end, and the first negative electrode body is the remaining part of the semicircular plate;

the first positive electrode body and the first negative electrode body are respectively connected with the wireless charging module through a connecting column and a connecting groove, and the connecting column and the connecting groove are integrally used as a rotating shaft for rotationally connecting the charging plate and the accommodating groove;

the second positive electrode body is a long strip-shaped side wall arranged from one end of the circular through cylinder-shaped second electric connection end to the other end, the width of the long strip-shaped side wall is equal to the arc length of one end of the first positive electrode body, and the rest side walls of the circular through cylinder except the second positive electrode body are the second negative electrode body.

Specifically, the embodiment of the utility model provides a vice instrument board dress trim cover still includes:

the first end of the plug connector is an external socket, and the second end of the plug connector is cylindrical and penetrates through the side wall of the accommodating groove and is sleeved on the outer surface of the second electric connection end;

and the second positive electrode body and the second negative electrode body are respectively led out to form an electric connection end and extend into the external socket.

Specifically, the embodiment of the utility model provides a wireless charging device still includes:

the elastic limiting structure comprises an elastic control button and a bolt, the elastic limiting structure and the elastic control button are both arranged on the mounting seat, and the bolt protrudes from the inner wall of the accommodating groove;

wherein, the elasticity control button with bolt sliding connection can be through reciprocal pressing the elasticity control button controls the bolt protrusion the inner wall of holding tank with the pinhole grafting that the charging panel side set up, and control the bolt retraction the inner wall of holding tank.

Specifically, the mounting seat is provided with a vertical channel and a horizontal channel which are communicated, the vertical channel is provided with a first opening on the surface of the mounting seat, and the horizontal channel is provided with a second opening on the inner wall of the accommodating groove;

the elastic control button is elastically arranged in the vertical hole, the first end of the elastic control button extends out of the first opening, the bolt is elastically arranged in the horizontal channel, the first end of the bolt extends out of the second opening in a reciprocating mode, and the second end of the elastic control button is connected with the position, close to the second end of the bolt, in a sliding mode.

Specifically, the elastic control button comprises an inverted L-shaped pressing block and a first elastic component, the first elastic component is supported between the pressing block and the mounting seat along the vertical direction, and one end, extending into the vertical channel, of the pressing block is a second end of the elastic control button, and the end part of the pressing block is wedge-shaped;

the second end of bolt with be provided with the second elastic component along the horizontal direction between the mount pad, the bolt is close to the position department of second end and is provided with the wedge groove, the wedge groove with press the wedge tip phase-match of piece.

Specifically, the cross-section of bolt is the rectangle, the first end of bolt sets up to the wedge, the pinhole is the wedge hole.

Specifically, the mounting seat is a decorative box or a sub-dashboard.

Additionally, the embodiment of the utility model provides an on-vehicle wireless charging panel, include:

the charging device comprises a charging plate, a wireless charging module and a first power supply module, wherein the wireless charging module is arranged in the charging plate, and two opposite sides of the charging plate are respectively provided with a rotating shaft and a first electric connecting end connected with the wireless charging module;

the second electric connection end is rotatably connected with the first electric connection end and is used for being fixedly connected to a body to be mounted;

after the charging plate drives the first electric connection end to rotate by a preset angle, the first electric connection end is in conductive communication with the second electric connection end.

Specifically, the first electric connection end is in a shape of an arc plate, and the first electric connection end is formed by combining a first positive electrode body and a first negative electrode body which are connected with the wireless charging module;

the second electric connection end is in a circular through cylinder shape and is divided into a second positive pole body and a second negative pole body;

the first electric connection end is arranged in the through hole of the second electric connection end and is in rotating connection, and when the charging plate is turned over for a preset angle, the first positive electrode body and the first negative electrode body are respectively and correspondingly electrically connected with the second positive electrode body and the second negative electrode body.

Additionally, the embodiment of the utility model provides a vehicle, include: a wireless charging device;

the wireless charging device includes:

the mounting seat is provided with an accommodating groove;

the wireless charging module is arranged in the charging plate, and the charging plate is rotationally connected with the accommodating tank and is used as a sealing cover of the accommodating tank;

after the charging plate rotates for a preset angle relative to the accommodating groove, the wireless charging module is in a state of being electrically communicated, and the accommodating groove is covered by the charging plate.

Borrow by above-mentioned technical scheme, the embodiment of the utility model provides a wireless charging device, on-vehicle wireless charging panel and vehicle have following advantage at least:

the embodiment of the utility model provides a wireless charging device, it sets up the holding tank on the mount pad to regard as the closing cap of holding tank with the charging panel of wireless charging module, such charging panel has wireless charging function, can also solve the problem that the holding tank that has wireless charging is easy to deposit the ash among the prior art, and apply on the vice instrument board; in addition, the charging panel is the pivoted with the holding tank, need to rotate and predetermine wireless charging module after the angle just be in can by electric communication state, the holding tank both can be shielded to the charging panel this moment, can also bear electronic equipment and for its wireless charging, and connect the scheme that sets up of electricity through foretell rotation, can make the charging panel be in the state of outage when not carrying out wireless charging, the effectual electric energy of saving vehicle self.

Drawings

Fig. 1 is a schematic three-dimensional split view of a decorative cover of a console panel provided in an embodiment of the present invention;

fig. 2 is a schematic structural view illustrating a first surface of a charging plate of a console box cover according to an embodiment of the present invention is exposed to the outside;

fig. 3 is a schematic structural view illustrating a second surface of a charging plate of a console box cover according to an embodiment of the present invention is exposed to the outside;

fig. 4 is a schematic three-dimensional split view of another auxiliary instrument panel decorative cover provided in the embodiment of the present invention;

fig. 5 is a schematic structural view illustrating that a charging plate of another auxiliary instrument panel decorative cover provided by the embodiment of the present invention rotates into an accommodating groove;

fig. 6 is a schematic structural view illustrating the positive and negative electrodes of the first electrical connection end and the second electrical connection end of the auxiliary instrument panel decorative cover according to the embodiment of the present invention are connected correspondingly;

FIG. 7 is a schematic cross-sectional view of the elastic limiting structure at A-A of FIG. 3 in a state of locking the charging plate;

FIG. 8 is a schematic cross-sectional view of the elastic limiting structure at A-A of FIG. 3, shown in an unlocked state;

fig. 9 is a schematic three-dimensional split view of a vehicle-mounted wireless charging panel according to an embodiment of the present invention;

fig. 10 is a schematic perspective view illustrating a split of another vehicle-mounted wireless charging panel according to an embodiment of the present invention.

The reference numerals in fig. 1 to 10 include:

10-wireless charging device, 20-vehicle-mounted wireless charging plate, 1-mounting seat, 2-charging plate, 3-first electric connection end, 4-second electric connection end, 5-plug connector, 6-elastic limiting structure, 11-accommodating groove, 12-first side wall, 13-vertical channel, 14-horizontal channel, 15-first opening, 16-second opening, 21-first surface, 22-second surface, 31-first positive pole body, 32-first negative pole body, 33-connecting column, 34-connecting groove, 41-second positive pole body, 42-second negative pole body, 61-elastic control button, 62-plug pin, 611-pressing block, 612-first elastic component and 63-second elastic component.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

As shown in fig. 1-5, an embodiment of the present invention provides a wireless charging device 10, which includes: a mounting base 1 and a charging plate 2; the mounting seat 1 is provided with an accommodating groove 11; a wireless charging module is arranged in the charging plate 2, and the charging plate 2 is rotatably connected with the accommodating groove 11 and serves as a sealing cover of the accommodating groove 11; after the charging plate 2 rotates for a preset angle relative to the accommodating groove 11, the wireless charging module is in a state of being electrically communicated, and the accommodating groove 11 is covered by the charging plate 2 and used for wirelessly charging the electronic equipment.

Specifically, the receiving groove 11 on the mounting base 1 may have a shape, a depth and an opening size that meet the use requirements of the user, for example, the receiving groove may be a rectangular groove or a circular groove, the opening direction of the receiving groove 11 is preferably a vertical upward direction, or may be a direction facing to other directions, for example, a direction having a certain inclination angle with the vertical direction, and it may be used to place a mobile phone and receive other sundries. The mount pad 1 can be integrated into one piece's injection molding, also can be the structure by several functional part combinations, the utility model discloses do not specifically prescribe a limit to, for example the mount pad can be the dress trim cover of vice instrument board, holding tank alright this moment with set up on the dress trim cover of vice instrument board, or, the mount pad is integrated into one piece with vice instrument board.

The shape of the charging plate 2 needs to match the shape of the opening of the housing groove 11, and may be, for example, rectangular or circular, so as to be able to function as a cover for the housing groove 11. The inside of the charging plate 2 can be a cavity structure so as to accommodate the wireless charging module, or the wireless charging module can be integrally formed with the material forming the charging plate 2, for example, a plastic material can be directly injected on the outer surface of the wireless charging module; the wireless charging module can be a wireless charging module conforming to the wireless charging alliance standard. The rotational connection between the charging plate 2 and the accommodating groove 11 may be that the side edge of the charging plate 2 is rotationally connected with the inner wall of the accommodating groove 11 as long as the side edge can rotate relative to the accommodating groove 11.

After the charging plate 2 rotates a preset angle relative to the accommodating groove 11, the wireless charging module is in a state of being electrically communicated, for example, the wireless charging module can be communicated with a power supply of a vehicle or other external power supplies, and further used as a power supply end for charging electronic equipment, and the specific implementation mode can be realized through an electric connection end at a rotating connection position of the charging plate 2 and the accommodating groove 11, and can also be realized through control of a control system of the vehicle.

The embodiment of the utility model provides a wireless charging device 10, it sets up holding tank 11 on mount pad 1 to regard as the closing cap of holding tank 11 with charging panel 2 of wireless charging module, such charging panel 2 when having the wireless function of charging, can also solve the problem that holding tank 11 that has wireless charging among the prior art is easy to deposit the ash, and use on the vice instrument board; in addition, charging panel 2 and holding tank 11 are the pivoted connection, need to rotate and predetermine the angle after wireless charging module just be in can by electric communication state, and charging panel 2 both can shield holding tank 11 this moment, can also bear electronic equipment and charge for its is wireless, and through the above-mentioned scheme that sets up that connects the electricity of rotating, can make charging panel 2 be in the state of outage when not carrying out wireless charging, the effectual electric energy of saving vehicle self.

As shown in fig. 1 to 3, in an embodiment, the charging plate 2 is preferably a rectangular plate for carrying electronic devices such as a mobile phone, and the receiving slot 11 is preferably a slot with a rectangular opening for being adapted to the charging plate 2 and for receiving articles. The middle parts of two opposite side edges of the charging plate 2 are rotatably connected with the middle parts of two opposite side walls of the accommodating groove 11 and can be turned in the accommodating groove 11; wherein, two surfaces of charging panel 2 are first surface 21 and second surface 22 respectively, first surface 21 is the decorative cover, second surface 22 is provided with the tray groove, works as when second surface 22 overturns to vertical position upwards, wireless charging module is in can by the state of electric intercommunication, can with the state of external power supply intercommunication.

Specifically, the middle portions of the two side edges of the charging plate 2 are rotatably connected to the two side walls of the accommodating groove 11, preferably at positions close to the notches of the accommodating groove 11, so that the charging plate 2 can be used as a cover of the accommodating groove 11, and the charging plate 2 can be turned inside the accommodating groove 11. And set up first surface 21 with charging panel 2 as the decorative cover, then can be when not using charging panel 2 to carry out wireless charging, with first surface 21 towards vertical direction, make charging panel 2's first face cover holding tank 11 to form a plane with mount pad 1 upper surface, keep the pleasing to the eye of mount pad 1, prevent simultaneously that the dust from getting into in holding tank 11. The tray groove arranged on the second surface 22 of the charging plate 2 may be a submerged groove similar to a tray structure, and when the second surface 22 is turned to be vertical and upward, the tray groove is used for bearing the electronic device, preventing the electronic device from sliding down, and simultaneously wirelessly charging the electronic device.

As shown in fig. 4 to 5, in the specific implementation, the scheme for realizing the rotational connection between the charging plate 2 and the accommodating groove 11 is as follows: one side edge of the charging plate 2 is attached to the first side wall 12 of the accommodating groove 11, and two ends of the side edge are rotatably connected with two side walls connected with two ends of the first side wall 12 and can be turned into the accommodating groove 11; wherein, the charging panel 2 to after rotating preset angle in the holding tank 11, holding tank 11 shows for hold article, angle to horizontality is preset in the rotation of charging panel 2, wireless charging module is in can be by electric communication state, can be with the state of external power supply intercommunication promptly.

Specifically, when the charging plate 2 is used, the charging plate can be turned over towards the inside of the accommodating groove 11 until the charging plate is turned over to a position where the side wall connected with the charging plate is attached, for example, the charging plate is turned over by 90 degrees, and at the moment, the accommodating groove 11 is exposed and can be used as an accommodating space for accommodating electronic equipment, a water cup or sundries. When the charging plate 2 rotates to the horizontal state, the charging plate 2 is connected with a vehicle power supply at the moment, the electronic equipment can be charged wirelessly, and the surface of the charging plate 2 arranged horizontally can also be provided with an accommodating latent groove so as to place the electronic equipment to slide down.

As shown in fig. 1, 4 and 6, in a specific implementation, a first electrical connection end 3 is disposed on one side of the charging plate 2 rotatably connected to the receiving groove 11, a second electrical connection end 4 is disposed on a corresponding side wall of the receiving groove 11, and the first electrical connection end 3 is rotatably connected to the second electrical connection end 4; after the first electric connection end 3 rotates a preset angle relative to the second electric connection end 4, the first electric connection end 3 is in conductive communication with the second electric connection end 4.

Specifically, the first electrical connection terminal 3 is required to be a structure in which the charging plate 2 is rotated with respect to the housing groove 11 while serving as a power receiving terminal, and the second electrical connection terminal is also required to be a structure in which the charging plate is rotated while serving as a power receiving terminal. Therefore, the first electrical connection end 3 may be in the shape of an arc plate, and may be a metal plate, and the first electrical connection end 3 may be formed by combining a first positive electrode body 31 and a first negative electrode body 32 connected to the wireless charging module; the second electrical connection end 4 may be a circular through-cylinder shape, and the second electrical connection end 4 may be formed by combining a second positive electrode body 41 and a second negative electrode body 42 connected to a power source of the vehicle.

First electric connection end 3 just can set up in the through-hole of second electric connection end 4 and rotate and connect like this, after charging panel 2 overturns and predetermines the angle, can make first positive pole body 31 and first negative pole body 32 correspond the electricity with second positive pole body 41 and second negative pole body 42 respectively and be connected, and then realize charging panel 2's wireless charging module's electricity and connect.

Still further, after the first electrical connection end 3 is rotated relative to the second electrical connection end 4, the first positive electrode body 31 and the first negative electrode body 32 can be electrically connected with the second positive electrode body 41 and the second negative electrode body 42 respectively.

Can set up first electricity connecting end 3 into the semicircular plate body, first positive pole body 31 can be the setting and be circular-arc rectangular lamellar body in the one end in semicircular plate body middle part, and first negative pole body 32 can be the remaining part of semicircular plate body, and has between first positive pole body 31 and the first negative pole body 32 and need have the interval gap or separate through the insulator. Wherein, first positive pole body 31 can be connected with the wireless module of charging through spliced pole 33, and first negative pole body 32 is established at the connecting groove 34 of spliced pole 33 outside semi-cycle through the ring and is connected with the wireless module of charging, spliced pole 33 like this with connecting groove 34 just can regard as charging panel 2 and holding tank 11 to rotate the pivot of being connected.

The second positive electrode body 41 may be an elongated sidewall disposed from one end to the other end of the circular through-tube-shaped second electrical connection terminal 4, and the width of the elongated sidewall is equal to the length of the arc of one end of the first positive electrode body 31, and the remaining sidewalls of the circular through-tube except the second positive electrode body 41 are disposed as a second negative electrode body 42, with a gap or an insulator between the second positive electrode body 41 and the second negative electrode body 42.

By arranging the first and second electrical connection terminals 3 and 4 in the above-described configuration, the first positive electrode body 31 and the second positive electrode body 41 can be correspondingly arranged to be rotated by a predetermined angle to be brought into contact, which may be 180 degrees or 90 degrees.

When turned angle is 180 degrees, this turned angle can be suitable for the form of charging panel 2 upset in holding tank 11, when charging panel 2 second surface 22 upset to vertical up, just in time 180 degrees overturn, the positive negative pole that first electric connection end 3 and second electric connection end 4 correspond at this moment is connected, can be the power supply of wireless charging module, the charging panel 2180 degree of overturning again, then first positive pole and the first negative pole of first electric connection end 3 all are connected with the second negative pole of second electric connection end 4, then the wireless charging module of charging panel 2 is in the outage state.

When turned angle is 90 degrees, this turned angle is applicable to the form of charging panel 2 to holding tank 11 in the upset, 90 degrees to the inside upset of holding tank 11 when charging panel 2, charging panel 2 and the laminating of one side inner wall of holding tank 11, first positive pole and the first negative pole of first electric connection end 3 all are connected with the second negative pole of second electric connection end 4, wireless charging module is in the outage state this moment, and when charging panel 2 gyration 90 degrees, be in the level and shelter from when holding tank 11's state, the first positive pole and the first negative pole of first electric connection end 3 are connected with the second positive pole and the second negative pole of second electric connection end 4 respectively, wireless charging module electricity is connected this moment, can charge for electronic equipment.

In the specific implementation, as shown in fig. 1 and 4, the second electrical connection terminal 4 may be directly connected to a power supply of the vehicle through a wire, or may be connected to a power supply connector of the vehicle through a plug 5. Therefore, the embodiment of the present invention provides a wireless charging device 10, which can further include: the first end of the plug connector 5 is an external socket, and the second end of the plug connector 5 is cylindrical and penetrates through the side wall of the accommodating groove 11 and is sleeved on the outer surface of the second electric connection end 4; the second positive electrode body 41 and the second negative electrode body 42 respectively lead out an electric connection end and extend into the external socket.

As shown in fig. 1, fig. 4, fig. 7, and fig. 8, in a specific implementation, the embodiment of the present invention provides a wireless charging device 10, further including: the elastic limiting structure 6 comprises an elastic control button 61 and a bolt 62, the elastic limiting structure 6 is arranged on the mounting seat 1, the elastic control button 61 is also arranged on the mounting seat 1, and the bolt 62 protrudes from the inner wall of the accommodating groove 11; wherein, elasticity control button 61 with bolt 62 sliding connection can be through reciprocal pressing elasticity control button 61, control bolt 62 protrusion the inner wall of holding tank 11 with the pinhole grafting that charging panel 2 side set up, and control bolt 62 retracts the inner wall of holding tank 11.

Specifically, elasticity limit structure 6 can lock charge board 2 spacing, prevents charge board 2's rotation, and the position that its set up can be any one side near charge board 2, as long as can be spacing with the pinhole grafting of charge board 2's side through bolt 62.

Furthermore, the elastic limit structure 6 is preferably realized by the following specific structure:

the mounting seat 1 is provided with a vertical channel 13 and a horizontal channel 14 which are communicated, the vertical channel 13 is provided with a first opening 15 on the surface of the mounting seat 1, and the horizontal channel 14 is provided with a second opening 16 on the inner wall of the accommodating groove 11; wherein the elastic control button 61 is elastically arranged in the vertical hole, a first end of the elastic control button 61 extends out from the first opening 15, the bolt 62 is elastically arranged in the horizontal channel 14, a first end of the bolt 62 reciprocally extends out from the second opening 16, and a second end of the elastic control button 61 is slidably connected with a position close to the second end of the bolt 62.

Specifically, the elastic control button 61 may include an inverted L-shaped pressing block 611 and a first elastic component 612, the first elastic component 612 is supported between the pressing block 611 and the mounting base 1 along the vertical direction, so that the pressing block 611 can be pressed along the vertical hole in a reciprocating manner, wherein one end of the pressing block 611 extending into the vertical channel 13 is a second end of the elastic control button 61, and the end of the second end is in a wedge shape; a second elastic part 63 is arranged between the second end of the bolt 62 and the mounting base 1 along the horizontal direction, so that the bolt 62 can stretch and retract back and forth along the horizontal hole, wherein a wedge-shaped groove is arranged at the position, close to the second end, of the bolt 62, and the wedge-shaped groove is matched with the wedge-shaped end of the pressing block 611.

Can make its wedge-shaped tip and bolt 62 wedge-shaped groove cooperation through reciprocal pressing according to piece 611 like this, then at wedge-shaped tip and wedge-shaped piece complex in-process, can realize the shrink of bolt 62, press the wedge-shaped tip of piece 611 and break away from the complex in-process with bolt 62 wedge-shaped groove, can make bolt 62 outstanding holding tank 11's lateral wall under elastomeric element's effect, and then insert in the pinhole of charging panel 2, it is spacing to charging panel 2.

In a specific implementation, the cross section of the bolt 62 is preferably rectangular, the first end of the bolt 62 is arranged in a wedge shape, and the pin hole is a wedge-shaped hole.

Specifically, its spacing effect of rectangular cross section's bolt 62 is better, can avoid rocking of minizone to appear, and sets up bolt 62 and pinhole complex first end into the wedge, then can play certain guide effect.

In a specific implementation, the mounting base 1 is a decorative box or a console panel.

Specifically, the auxiliary instrument panel can be provided with a groove for placing the decorative box, so that the wireless charging device 10 can be directly placed in the groove of the auxiliary instrument panel and connected with a power supply of a vehicle, and then the wireless charging device 10 has the function of connecting the power supply of the vehicle after rotation and can be used for wirelessly charging electronic products. Alternatively, the mounting seat 1 is a console, that is, a groove provided on the console serves as the receiving groove 11 of the wireless charging device 10, and at this time, it is only necessary to mount the charging pad on the notch of the receiving groove 11.

Example two

As shown in fig. 9, a second embodiment of the present invention provides an on-vehicle wireless charging panel 20, which includes: the charging device comprises a charging plate 1, wherein a wireless charging module is arranged in the charging plate 1, and two opposite sides of the charging plate 1 are respectively provided with a rotating shaft and a first electric connecting end 3 connected with the wireless charging module; the second electric connecting end 4 is rotatably connected with the first electric connecting end 3, and the second electric connecting end 4 is used for being fixedly connected to a body to be installed; after the charging panel 1 drives the first electric connection end 3 to rotate by a preset angle, the first electric connection end 3 is in conductive communication with the second electric connection end 4.

Specifically, the specific structure of the vehicle-mounted wireless charging panel 20 can refer to the descriptions of the charging panel 1 and the first and second electrical connection terminals 3 and 4 in the above embodiments, and the descriptions thereof are omitted. In addition, it should be noted that the vehicle-mounted wireless charging board 20 provided in the second embodiment can be used as a separately produced and sold device, can be installed on a groove of a console of a vehicle, can be used as a cover while being used as a charging board, and is also used for electrically connecting the first electrical connecting terminal 3 and the second electrical connecting terminal 4 after being rotated by a preset angle, and the wireless charging module in the charging board 1 is connected with a power supply of the vehicle through the first electrical connecting terminal 3 and the second electrical connecting terminal 4, that is, the working principle of the vehicle-mounted wireless charging board 20 provided in the second embodiment is the same as that of the charging board 2 in the first embodiment.

Further, the first electric connection end 3 may be in the shape of an arc plate, and may be a metal plate, and the first electric connection end 3 may be formed by combining a first positive electrode body 31 and a first negative electrode body 32 connected to the wireless charging module; the second electrical connection end 4 may be a circular through-cylinder shape, and the second electrical connection end 4 may be formed by combining a second positive electrode body 41 and a second negative electrode body 42 connected to a power source of the vehicle.

First electric connection end 3 just can set up in the through-hole of second electric connection end 4 and rotate and connect like this, after charging panel 2 overturns and predetermines the angle, can make first positive pole body 31 and first negative pole body 32 correspond the electricity with second positive pole body 41 and second negative pole body 42 respectively and be connected, and then realize charging panel 2's wireless charging module's electricity and connect.

After the first electrical connection end 3 is rotated relative to the second electrical connection end 4, the first positive electrode body 31 and the first negative electrode body 32 can be electrically connected with the second positive electrode body 41 and the second negative electrode body 42 respectively.

Can set up first electricity connecting end 3 into the semicircular plate body, first positive pole body 31 can be the setting and be circular-arc rectangular lamellar body in the one end in semicircular plate body middle part, and first negative pole body 32 can be the remaining part of semicircular plate body, and has between first positive pole body 31 and the first negative pole body 32 and need have the interval gap or separate through the insulator. Wherein, first positive pole body 31 can be connected with the wireless module of charging through spliced pole 33, and first negative pole body 32 is established at the connecting groove 34 of spliced pole 33 outside semi-cycle through the ring and is connected with the wireless module of charging, spliced pole 33 like this with connecting groove 34 just can regard as charging panel 2 and holding tank 11 to rotate the pivot of being connected.

The second positive electrode body 41 may be an elongated sidewall disposed from one end to the other end of the circular through-tube-shaped second electrical connection terminal 4, and the width of the elongated sidewall is equal to the length of the arc of one end of the first positive electrode body 31, and the remaining sidewalls of the circular through-tube except the second positive electrode body 41 are disposed as a second negative electrode body 42, with a gap or an insulator between the second positive electrode body 41 and the second negative electrode body 42.

By arranging the first and second electrical connection terminals 3 and 4 in the above-described configuration, the first positive electrode body 31 and the second positive electrode body 41 can be correspondingly arranged to be rotated by a predetermined angle to be brought into contact, which may be 180 degrees or 90 degrees.

As shown in fig. 10, in a specific embodiment, the second electrical connection terminal 4 may be directly connected to a power supply of a vehicle through a wire, or may be connected to a power supply connector of the vehicle through a plug 5. Therefore the embodiment of the utility model provides an on-vehicle wireless charging panel 20 can also include: the first end of the plug connector 5 is an external socket, and the second end of the plug connector 5 is cylindrical and can be arranged in the side wall of the groove of the auxiliary instrument panel in a penetrating manner or arranged on the side wall of the body to be installed in a penetrating manner, and is sleeved on the outer surface of the second electric connection end 4; the second positive electrode body 41 and the second negative electrode body 42 respectively lead out an electric connection end and extend into the external socket. In this way, the second electrical connection 4 can be quickly connected to an external power source, for example a vehicle power source, via the plug 5.

EXAMPLE III

The embodiment of the utility model provides a third provides a vehicle, it includes: a wireless charging device; the wireless charging device 10 shown in fig. 1 to 5 includes: the mounting seat comprises a mounting seat 1, wherein the mounting seat 1 is provided with a containing groove 11; the charging plate 2 is internally provided with a wireless charging module, and the charging plate 2 is rotatably connected with the accommodating groove 11 and used as a sealing cover of the accommodating groove 11; after the charging plate 2 rotates a preset angle relative to the accommodating groove 11, the wireless charging module is in an electric communication state, for example, the wireless charging module is communicated with a power supply of a vehicle, and the accommodating groove 11 is covered by the charging plate 2 and used for wirelessly charging electronic equipment.

Specifically, the wireless charging device 10 in the third embodiment can directly use the wireless charging device 10 provided in the first embodiment, and specific implementation structures can refer to relevant contents described in the first embodiment, which is not described herein again.

The embodiment of the utility model provides a vehicle, set up holding tank 11 on its wireless charging device's mount pad 1 to regard as the closing cap of holding tank 11 with charging panel 2 of wireless charging module, such charging panel 2 can also solve the problem that holding tank 11 that has wireless charging is easy to deposit the ash in prior art when having wireless charging function; in addition, charging panel 2 and holding tank 11 are the pivoted connection, need just with the intercommunication of the power of vehicle after rotating preset angle, and charging panel 2 both can shield holding tank 11 this moment, can also bear electronic equipment and charge for its wireless, and connects the electric scheme through foretell rotation, can make charging panel 2 be in the state of outage when not carrying out wireless charging, the effectual electric energy of saving vehicle self.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (15)

1. A wireless charging device, comprising:

the mounting seat is provided with an accommodating groove;

the wireless charging module is arranged in the charging plate, and the charging plate is rotationally connected with the accommodating tank and is used as a sealing cover of the accommodating tank;

after the charging plate rotates for a preset angle relative to the accommodating groove, the wireless charging module is in a state of being electrically communicated, and the accommodating groove is covered by the charging plate.

2. The wireless charging apparatus of claim 1,

the middle parts of two opposite side edges of the charging plate are rotatably connected with the middle parts of two opposite side walls of the accommodating groove and can be turned in the accommodating groove;

the two surfaces of the charging plate are respectively a first surface and a second surface, the first surface is a decorative surface, the second surface is provided with a tray groove, and when the second surface turns to a position vertically upwards, the wireless charging module is in a state of being capable of being electrically communicated.

3. The wireless charging apparatus of claim 1,

one side edge of the charging plate is attached to the first side wall of the accommodating groove, and two ends of the side edge are rotatably connected with the two side walls connected with the two ends of the first side wall and can turn into the accommodating groove;

after the charging plate rotates a preset angle in the accommodating groove, the accommodating groove is exposed and used for accommodating articles, the charging plate rotates the preset angle to a horizontal state, and the wireless charging module is in a state of being electrically communicated.

4. The wireless charging apparatus according to any one of claims 1 to 3,

a first electric connection end is arranged on one side edge of the charging plate, which is rotatably connected with the accommodating groove, a second electric connection end is arranged on the corresponding side wall of the accommodating groove, and the first electric connection end is rotatably connected with the second electric connection end;

after the first electric connection end rotates for a preset angle relative to the second electric connection end, the first electric connection end is in conductive communication with the second electric connection end.

5. The wireless charging apparatus of claim 4,

the first electric connection end is in a shape of an arc plate and is formed by combining a first positive electrode body and a first negative electrode body which are connected with the wireless charging module;

the second electric connection end is in a circular through cylinder shape and is formed by combining a second positive electrode body and a second negative electrode body which are connected with a power supply of a vehicle;

the first electric connection end is arranged in the through hole of the second electric connection end and is in rotating connection, and when the charging plate is turned over for a preset angle, the first positive electrode body and the first negative electrode body are respectively and correspondingly electrically connected with the second positive electrode body and the second negative electrode body.

6. The wireless charging apparatus of claim 5,

the first electric connection end is a semicircular plate body, the first positive electrode body is a long strip sheet body which is arranged in the semicircular plate body and one end of which is in an arc shape, and the first negative electrode body is the rest part of the semicircular plate body;

the first positive electrode body and the first negative electrode body are respectively connected with the wireless charging module through a connecting column and a connecting groove, and the connecting column and the connecting groove are integrally used as a rotating shaft for rotationally connecting the charging plate and the accommodating groove;

the second positive electrode body is a long strip-shaped side wall arranged from one end of the circular through cylinder-shaped second electric connection end to the other end, the width of the long strip-shaped side wall is equal to the arc length of one end of the first positive electrode body, and the rest side walls of the circular through cylinder except the second positive electrode body are the second negative electrode body.

7. The wireless charging apparatus of claim 6, further comprising:

the first end of the plug connector is an external socket, and the second end of the plug connector is cylindrical and penetrates through the side wall of the accommodating groove and is sleeved on the outer surface of the second electric connection end;

and the second positive electrode body and the second negative electrode body are respectively led out to form an electric connection end and extend into the external socket.

8. The wireless charging apparatus of claim 1, further comprising:

the elastic limiting structure comprises an elastic control button and a bolt, the elastic limiting structure and the elastic control button are both arranged on the mounting seat, and the bolt protrudes from the inner wall of the accommodating groove;

wherein, the elasticity control button with bolt sliding connection can be through reciprocal pressing the elasticity control button controls the bolt protrusion the inner wall of holding tank with the pinhole grafting that the charging panel side set up, and control the bolt retraction the inner wall of holding tank.

9. The wireless charging apparatus of claim 8,

the mounting seat is provided with a vertical channel and a horizontal channel which are communicated, the vertical channel is provided with a first opening on the surface of the mounting seat, and the horizontal channel is provided with a second opening on the inner wall of the accommodating groove;

the elastic control button is elastically arranged in the vertical hole, the first end of the elastic control button extends out of the first opening, the bolt is elastically arranged in the horizontal channel, the first end of the bolt extends out of the second opening in a reciprocating mode, and the second end of the elastic control button is connected with the position, close to the second end of the bolt, in a sliding mode.

10. The wireless charging apparatus of claim 9,

the elastic control button comprises an inverted L-shaped pressing block and a first elastic component, the first elastic component is supported between the pressing block and the mounting seat along the vertical direction, and one end, extending into the vertical channel, of the pressing block is a second end of the elastic control button, and the end part of the pressing block is wedge-shaped;

the second end of bolt with be provided with the second elastic component along the horizontal direction between the mount pad, the bolt is close to the position department of second end and is provided with the wedge groove, the wedge groove with press the wedge tip phase-match of piece.

11. The wireless charging apparatus of claim 10,

the cross-section of bolt is the rectangle, the first end of bolt sets up to the wedge, the pinhole is the wedge hole.

12. The wireless charging apparatus of claim 1,

the mounting seat is a decorative box or an auxiliary instrument panel.

13. An on-vehicle wireless charging panel, its characterized in that, it includes:

the charging device comprises a charging plate, a wireless charging module and a first power supply module, wherein the wireless charging module is arranged in the charging plate, and two opposite sides of the charging plate are respectively provided with a rotating shaft and a first electric connecting end connected with the wireless charging module;

the second electric connection end is rotatably connected with the first electric connection end and is used for being fixedly connected to a body to be mounted;

after the charging plate drives the first electric connection end to rotate by a preset angle, the first electric connection end is in conductive communication with the second electric connection end.

14. The vehicle-mounted wireless charging pad according to claim 13,

the first electric connection end is in a shape of an arc plate and is formed by combining a first positive electrode body and a first negative electrode body which are connected with the wireless charging module;

the second electric connection end is in a circular through cylinder shape and is divided into a second positive pole body and a second negative pole body;

the first electric connection end is arranged in the through hole of the second electric connection end and is in rotating connection, and when the charging plate is turned over for a preset angle, the first positive electrode body and the first negative electrode body are respectively and correspondingly electrically connected with the second positive electrode body and the second negative electrode body.

15. A vehicle, characterized in that: the method comprises the following steps:

the wireless charging apparatus of any of claims 1-12.