CN220254195U - Wireless charging box and vehicle - Google Patents

Abstract

The application provides a wireless charging box and vehicle. The wireless charging box comprises a box body, a charging module, a pushing-down piece and a pressing piece. The box body comprises a mounting piece and an accommodating space for accommodating the electronic product. The compressing piece is a lever mechanism and is connected to the mounting piece. The pushing-down piece moves downwards to push the pressing piece, so that the pressing piece can press the electronic product and the electronic product is attached to the charging module. When the electronic product is placed into the box body to be charged, the pressing piece presses the electronic product to be attached to the charging module, so that the electronic product can be continuously and stably charged, and the charging efficiency is improved.

Description

Wireless charging box and vehicle

Technical Field

The application relates to the field of wireless charging, in particular to a wireless charging box and a vehicle.

Background

With the rapid development of wireless charging technology, wireless charging devices are being applied in more and more fields. And along with the multifunctional demands of people on vehicles, vehicles with wireless charging functions are more and more. However, most of traditional vehicle-mounted wireless charging devices are planar wireless charging, and electronic products are limited and fixed by friction between the electronic products and the plane of the wireless charging device. Because the friction between the electronic product and the plane of the wireless charging equipment is limited, inaccurate positioning and movement of the electronic product often occur during charging. Particularly, when the vehicle is in a bumpy running state, the electronic product can shake correspondingly, the charging efficiency of the electronic product is affected, and certain damage to the electronic product can be caused.

Accordingly, there is a need to provide an improved wireless charging cartridge that addresses the above-described problems.

Disclosure of Invention

The application provides an improved wireless charging box and a vehicle.

The application provides a wireless charging box, which comprises a box body, a charging module, a pushing-down piece and a pressing piece; the box body comprises a mounting piece and an accommodating space for accommodating electronic products; the pressing piece is a lever mechanism and is connected to the mounting piece; the pushing-down part moves downwards to push the pressing part, so that the pressing part can press the electronic product and enable the electronic product to be abutted to the charging module. The pressing piece of the technical scheme is a lever mechanism, so that the electronic product can be pressed to the charging module by means of dead weight when being charged, and the effect of stable charging is achieved.

Further, the compressing piece comprises a first supporting rod and a second supporting rod; the length of the first support rod is greater than that of the second support rod. According to the technical scheme, the contact area between the first supporting rod and the electronic product screen is larger, the electronic product is clamped more effectively, and the charging stability is improved.

Further, the second strut includes a guide surface; the pushing-down piece comprises a pushing surface; the pushing surface is attached to the guiding surface. According to the technical scheme, the pushing surface is attached to the guide surface, so that the pushing-down piece can timely push the second supporting rod to move, and the effect of quickly pressing the electronic product by the first supporting rod is achieved.

Further, the pressing piece comprises an upper pressing part and a buffer cushion; the upper pressing part is connected with the first supporting rod and is positioned above the first supporting rod; when the electronic product is not arranged in the box body, the upper pressing part is attached to the box body; the buffer pad is arranged on the upper pressing part so as to prevent the electronic product from being damaged when being clamped. The cushion pad of the technical scheme is used for protecting the electronic product.

Further, the guide surface is an inclined surface; the upper pressing part comprises an avoidance inclined plane; the avoidance inclined surface is positioned in the upper area of the upper pressing part and used for expanding the inlet of the box body; the inclination direction of the guide surface is the same as that of the avoidance inclined surface. According to the technical scheme, the guide surface is an inclined surface, so that the moving travel of the second supporting rod is increased, and the situation that the clamping of the electronic product is not tight is avoided.

Further, the electronic product box further comprises an elastic piece matched with the pressing piece, so that when the electronic product is taken out of the electronic product box, the pressing piece is driven to reset. According to the technical scheme, the elastic piece drives the compressing piece to reset, so that the compressing piece can clamp the electronic product again when the electronic product is charged next time.

Further, the elastic piece is a spring arranged on the first supporting rod and the inner wall of the box body; when the electronic product is charged, the spring applies a pulling force to the first supporting rod. According to the technical scheme, the arrangement form of the elastic piece is increased, and the pressing piece is reset by utilizing the pulling force.

Further, the elastic piece is a spring arranged on the second supporting rod and the inner wall of the box body; when the electronic product is charged, the spring applies a propping force to the second supporting rod. According to the technical scheme, the arrangement form of the elastic piece is increased, and the pressing piece is reset by the aid of the propping force.

Further, the pushing-down piece comprises a bearing part, a supporting part and a pushing part; the supporting part comprises a first connecting end and a second connecting end; the first connecting end is connected with the bearing part; the pushing part is arranged on the second connecting end; the pushing surface is an arc surface and is arranged on the pushing part. The bearing part of the technical scheme is used for supporting the electronic product, and meanwhile, the pushing part is matched with the second supporting rod through the cambered surface, so that friction force is reduced.

Further, the mounting piece is vertically connected in the box body; the mounting piece comprises a through hole and a pin shaft; the pushing-down piece penetrates through the through hole and can move up and down on the mounting piece; the pressing piece is movably connected with the mounting piece through the pin shaft. According to the technical scheme, the pressing piece can rotate around the pin shaft by a certain angle, so that the electronic product is ensured to be continuously pressed for charging.

Further, the box body comprises a first box body and a second box body which are detachably connected; the first box body comprises a module connecting plate; the second box body comprises a front guard plate; when the first box body is combined with the second box body, the module connecting plate is arranged opposite to the front guard plate and higher than the front guard plate. The module connecting plate of the technical scheme is higher than the front guard plate, so that the front guard plate is free from blocking, and the effect that the electronic product can be conveniently put in and taken out of the box body is achieved.

The application also provides a vehicle, including wireless charging box as described above, wireless charging box sets up on the vehicle vertically. Above-mentioned technical scheme's wireless charging box vertical setting on the vehicle, rely on the dead weight to be compressed tightly when guaranteeing that electronic product charges, reach the effect of stable charging.

Compared with the prior art, the electronic product is placed in the box body to charge through setting up pushing down the pushing down piece and being the compressing tightly piece of lever mechanism, and when the electronic product relies on its dead weight to push down the pushing down piece, and then promotes compressing tightly the piece and is compressed tightly for the electronic product is in the charging process and is leaned on the charging module all the time. The wireless charging box is simple in structure and small in occupied space, and can ensure that electronic products are continuously and stably charged, so that charging efficiency is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the specification and together with the description, serve to explain the principles of the specification.

Fig. 1 is a perspective view of a wireless charging cartridge of the present application.

Fig. 2 is a cross-sectional view of the wireless charging cartridge of fig. 1.

Fig. 3 is a perspective view of the first case of fig. 1.

Fig. 4 is a perspective view of the mounting member of fig. 1 secured to a second cassette.

Fig. 5 is a perspective view of the push-down member of fig. 1.

Fig. 6 is a perspective view of the compression member of fig. 1.

Fig. 7 is a perspective view of the compression member of fig. 6 with the cushion removed.

Reference numerals illustrate: a case body 10; a mounting member 11; a through hole 111; a pin shaft 112; a first case 12; a module connecting plate 121; a first base plate, 122; a first side plate, 123; a second side plate 124; a first mounting portion 125; a second case 13; front guard plates, 131; a second bottom plate, 132; a third side plate 133; a fourth side plate 134; a second mounting portion 135; a housing space 14; a charging module 20; a push-down member 30; a pushing surface 31; a carrying part 32; a support portion 33; a first connection end 331; a second connection end 332; a pushing part (34); a pressing member 40; a first strut 41; a second strut, 42; a guide surface 421; an upper pressing part 43; avoidance ramp, 431; a cushion pad 44; elastic member, 50.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the present specification. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present description as detailed in the accompanying claims.

The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the description. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used in this specification to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, the first information may also be referred to as second information, and similarly, the second information may also be referred to as first information, without departing from the scope of the present description. The word "if" as used herein may be interpreted as "at … …" or "at … …" or "responsive to a determination", depending on the context.

Next, embodiments of the present specification will be described in detail.

As shown in fig. 1 and 2, the wireless charging box of the present application includes a box body 10, a charging module 20, a pushing-down member 30, a pressing member 40 and an elastic member 50. The pushing-down member 30 is matched with the pressing member 40, and when the electronic product is charged, the pushing-down member 30 can be pushed down by self weight to move downwards. And further the pressing member 40 is pushed to press the electronic product, so that the electronic product is attached to the charging module 20, and the effect of stable charging is achieved. And the wireless charging box has simple structure and small occupied space.

In one embodiment, the cartridge 10 includes a mounting 11, a first cartridge 12, and a second cartridge 13. The mounting member 11 can be integrally formed with the case 10, so that the stability of the mounting member 11 is ensured. Indeed, the mounting member 11 is also detachably mounted on the box body 10, so that the box body 10 is more flexible when being matched with the mounting member 11, and the manufacturing cost is reduced.

To ensure that the electronic product is more easily pressed against the charging module 20, the mounting member 11 is vertically mounted on the case 10. In another embodiment, the mounting member 11 need not be connected perpendicular to the case 10 for ease of manufacture.

As further shown in fig. 3 and 4, two mounting members 11 are provided and are symmetrically disposed on the same side of the case 10. The mounting 11 may be provided on the first casing 12 or on the second casing 13, depending on the application. The mount 11 includes a through hole 111 and a pin 112.

The first box body 12 is detachably connected with the second box body 13, and the arrangement is so that other components in the box body 10 are more convenient to install. In another embodiment, the first case 12 and the second case 13 may be integrally formed, so as to increase the overall strength of the case 10.

In one embodiment, the first box 12 includes a module connecting plate 121, a first bottom plate 122, a first side plate 123, a second side plate 124, and a first mounting portion 125. The first bottom plate 122, the first side plate 123 and the second side plate 124 are bent and extended from the peripheral side of the module connecting plate 121 and have the same extending direction. The first side plate 123 and the second side plate 124 are respectively located at two opposite sides of the module connecting plate 121. The first bottom plate 122 is located between the first side plate 123 and the second side plate 124 and is connected to the first side plate 123 and the second side plate 124 respectively. The first mounting portion 125 is provided in plurality and is provided on the first bottom plate 122, the first side plate 123, and the second side plate 124, respectively.

The second case 13 includes a front cover 131, a second bottom plate 132, a third side plate 133, a fourth side plate 134, and a second mounting portion 135. The second bottom plate 132, the third side plate 133, the fourth side plate 134, and the second attachment portion 135 are bent and extended from the peripheral side of the front cover 131 in the same extending direction. The third side plate 133 and the fourth side plate 134 are respectively located at two opposite sides of the front guard plate 131. The second bottom plate 132 is located between the third side plate 133 and the fourth side plate 134 and is connected to the third side plate 133 and the fourth side plate 134, respectively. The second mounting portion 135 is provided in plurality and provided on the second bottom plate 132, the third side plate 133, and the fourth side plate 134, respectively.

In one embodiment, the first bottom plate 122 is flush with the second bottom plate 132 when the first and second cases 12, 13 are assembled together. Through such setting for wireless charging box is when the installation, and the location is more accurate and more firm. The module connecting plate 121 is disposed opposite to the front guard plate 131 and the module connecting plate 121 is higher than the front guard plate 131. By the arrangement, when the electronic product is taken out or put into the box body 10, the opening is free from redundant blocking, and the operation is more convenient.

The first side plate 123 is correspondingly matched with the third side plate 133. The second side plate 124 is correspondingly matched with the fourth side plate 134. The mounting member 11 is provided on the front guard 131 and below the charging module 20. The first mounting portion 125 is provided corresponding to the second mounting portion 135, and the first case 12 and the second case 13 are fixed together by the engagement of the first mounting portion 125 and the second mounting portion 135. Preferably, the first mounting portion 125 and the second mounting portion 135 are fixed by bolts. By this arrangement, the first mounting portion 125 and the second mounting portion 135 are simple to manufacture and are inexpensive to manufacture.

In another embodiment, the first mounting portion 125 and the second mounting portion 135 may be respectively configured as a hook and a buckle, so that the first case 12 and the second case 13 are more convenient to be combined.

In one embodiment, the case 10 further includes a receiving space 14. The accommodating space 14 is used for accommodating the electronic product, and the mounting member 11, the pushing member 30, the pressing member 40 and the elastic member 50 are also disposed in the accommodating space 14. The housing space 14 is formed around the first case 12 and the second case 13 when they are combined.

In an embodiment, the charging module 20 is disposed on the module connecting plate 121, and two sides of the charging module 20 are respectively attached to the first side plate 123 and the second side plate 124. Through such setting for the effective charge area of charging module 20 covers to the left and right sides of first box body 12, guarantees that the electronic product is in effective charge area all the time, improves the charging efficiency of electronic product.

The charging module 20 can be fixed with the module connecting plate 121 through bolts so as to ensure convenience and firmness in mounting the charging module 20. Meanwhile, the charging module 20 can be bonded with the module connecting plate 121, so that the cost is reduced.

The charging module 20 is located above the mount 11, and in the vertical direction of the mount 11, the mount 11 partially coincides with the charging module 20. The arrangement is such that the battery of the electronic product is always located in the effective charging area of the charging module 20, and the effect of stable charging is achieved.

In another embodiment, the charging module 20 may be disposed on the front protection plate 131, and two sides of the charging module 20 are respectively attached to the third side plate 133 and the fourth side plate 134. Through such setting for the effective charging area of charging module 20 covers to the left and right sides of second box body 13, guarantees that the electronic product is in effective charging area all the time, improves the charging efficiency of electronic product.

The charging module 20 can be fixed with the front guard plate 131 through bolts, so that convenience and firmness in installation of the charging module 20 are guaranteed. Meanwhile, the charging module 20 can be adhered to the front guard plate 131, so that the cost is reduced.

In another embodiment, the charging module 20 may also be provided on the mount 11. By this arrangement, the electronic product is brought closer to the charging module 20.

As further shown in connection with fig. 5, the push-down member 30 is located between the charging module 20 and the hold-down member 40. The push-down member 30 is provided on the mount 11, penetrates the through hole 111, and is movable up and down on the mount 11. By this arrangement, when the electronic product is placed in the box 10, the pushing-down member 30 is ensured to be slightly loose and move down, so as to push the pressing member 40.

In another embodiment, the pushing member 30 may be disposed on the first case 12 or the second case 13, while ensuring that the pushing member 30 can push the compressing member 40.

The push-down member 30 includes a pushing surface 31, a bearing portion 32, a supporting portion 33, and a pushing portion 34. The supporting portion 33 includes a first connecting end 331 and a second connecting end 332. The bearing portion 32 is connected to the first connecting end 331 and is located above the mounting member 11. The bearing portion 32 has a plate-like structure, and is capable of being limited above the mounting member 11 when the bearing portion 32 moves down to the limit position, so as to prevent the push-down member 30 from falling off the mounting member 11.

The pushing portion 34 is connected to the second connecting end 332 and is located below the mounting member 11. The support portion 33 is provided in the through hole 111, and the shape of the through hole 111 is adapted to the cross-sectional shape of the support portion 33. So arranged, the support 33 is ensured to move up and down easily within the through hole 111.

The pushing surface 31 is a cambered surface and is provided on the pushing portion 34. By the arrangement, the contact position of the pushing part 34 and the compressing part 40 is a straight line, so that the contact friction force is reduced, and the compressing part 40 is better pushed to compress the electronic product. Preferably, the pushing portion 34 is a roller, and the roller is movably connected to the second connecting end 332 to reduce friction. Indeed, the pushing portion 34 may also be an inclined surface structure or a spherical structure integrally formed with the supporting portion 33, so as to reduce the manufacturing difficulty and the manufacturing cost of the pushing member 30.

Further referring to fig. 6 and 7, the pressing member 40 has a lever structure and is movably connected to the mounting member 11 through a pin 112, so that the pressing member 40 can rotate at a certain angle relative to the mounting member 11. The pressing member 40 includes a first support bar 41, a second support bar 42, an upper pressing portion 43, and a cushion pad 44.

Preferably, the first strut 41 is located above the mounting 11, and the length of the first strut 41 is greater than the length of the second strut 42. Through such setting for when first branch 41 compresses tightly the electronic product, the area of contact with the electronic product is bigger, and the more firm clamping electronic product reaches the effect of stable charging. Indeed, the length of the first supporting rod 41 may be equal to or smaller than the length of the second supporting rod 42 on the premise of ensuring that the first supporting rod 41 can smoothly press the electronic product,

the second strut 42 is located below the mount 11. The second support rod 42 includes a guide surface 421, and the guide surface 421 is in contact with the pushing surface 31. Preferably, the guiding surface 421 is an inclined surface, which increases the moving travel of the second supporting rod 42, and avoids the situation that the electronic product is not clamped tightly.

In another embodiment, the guiding surface 421 may be a cambered surface or other contact surface adapted to the pushing surface 31, while ensuring that the second supporting rod 42 and the first supporting rod 41 can rotatably press the electronic product.

The upper pressing portion 43 is connected to the first supporting rod 41 and is located above the first supporting rod 41. When no electronic product is in the box body 10, the upper pressing part 43 is abutted against the box body 10, and a gap for easily placing the electronic product into the box body 10 is arranged between the upper pressing part 43 and the charging module 20.

The upper pressing portion 43 includes a relief slope 431. The avoidance slope 431 is located at an upper region of the upper pressing portion 43, and is used for enlarging an inlet of the box body 10, so that the electronic product is more convenient to put in and take out. The inclined direction of the escape slope 431 is the same as that of the guide surface 421, so that the configuration of the pressing member 40 is simplified, and complex structure is not required to be matched with the same.

The cushion pad 44 is provided on the upper pressing portion 43 for contact with the electronic product. The cushion pad 44 may be made of flexible materials such as rubber, foam, sponge, etc., to prevent the electronic product from being damaged when clamped.

In one embodiment, the elastic member 50 cooperates with the pressing member 40, so that after the electronic product is taken out of the case 10, the elastic member 50 drives the pressing member 40 to reset, and the electronic product is ready for the next charging. Preferably, the elastic member 50 is a spring mounted on the inner walls of the first supporting rod 41 and the second case 13. When the electronic product is charged in the box body 10, the spring applies a pulling force to the first supporting rod 41, so that the pressing piece 40 is driven to reset after the electronic product is taken out of the box body 10.

In another embodiment, the elastic member 50 is a spring mounted on the upper pressing portion 43 and the inner wall of the second case 13. When the electronic product is charged in the case 10, the spring applies a pulling force to the upper pressing portion 43, so that the pressing member 40 is driven to reset after the electronic product is taken out of the case 10.

In another embodiment, the elastic member 50 is a spring mounted on the second strut 42 and the inner wall of the second casing 13. When the electronic product is charged in the case 10, the spring applies a pushing force to the second supporting rod 42, so that the compressing member 40 is driven to reset after the electronic product is taken out of the case 10.

In another embodiment, the resilient member 50 is a spring mounted to the second leg 42 and the inner wall of the first housing 12. When the electronic product is charged in the case 10, the spring applies a pulling force to the second supporting rod 42, so that the compressing member 40 is driven to reset after the electronic product is taken out of the case 10.

In another embodiment, the resilient member 50 may be a reed. When the elastic member 50 applies a pulling force to the first strut 41, the second strut 42 or the upper pressing portion 43, the elastic member 50 may be a rubber band. So set up, under the circumstances of guaranteeing normal use, practice thrift manufacturing cost.

The application also includes a vehicle. The vehicle includes a wireless charging cartridge as described above. The wireless charging box is vertically arranged on the vehicle to ensure that the electronic product can press the wireless charging box by means of dead weight, thereby achieving the effect of stable charging.

In one embodiment, the wireless charging box can be arranged on an instrument board, a seat or a door of a vehicle, so that a narrow vertical space on the vehicle can be better utilized.

When the electronic product is placed in the wireless charging box for charging, the electronic product is firstly contacted with the pushing-down piece 30, and the pushing-down piece 30 is enabled to move downwards by means of the self weight of the electronic product. The pushing-down member 30 in turn pushes the pressing member 40 to rotate about the pin 112 while deforming the elastic member 50. In the process of rotating the pressing member 40, the pressing member 40 contacts with the electronic product and pushes the electronic product to move towards the charging module 20 until the electronic product is attached to the charging module 20. The pressing member 40 can continuously press the electronic product due to its own weight, preventing movement thereof.

After the electronic product is charged and the box body 10 is taken out, the elastic piece 50 drives the pressing piece 40 to reset, so that the next wireless charging box is ready for use.

The wireless charging box is simple in structure, small in occupied space and capable of utilizing the narrow space in the vehicle better. Meanwhile, the pressing piece 40 always presses the electronic product, and the electronic product is always located in an effective charging area, so that the stability and the charging efficiency of the electronic product during charging are improved.

The foregoing description is only a preferred embodiment of the present application, and is not intended to limit the utility model to the particular embodiment disclosed, but is not intended to limit the utility model to the particular embodiment disclosed, as any and all modifications, equivalent to the above-described embodiment, may be made by one skilled in the art without departing from the scope of the utility model.

Claims (12)

1. The wireless charging box is characterized by comprising a box body, a charging module, a pushing-down piece and a pressing piece; the box body comprises a mounting piece and an accommodating space for accommodating electronic products; the pressing piece is a lever mechanism and is connected to the mounting piece; the pushing-down part moves downwards to push the pressing part, so that the pressing part can press the electronic product and enable the electronic product to be abutted to the charging module.

2. The wireless charging cartridge of claim 1, wherein the compression member comprises a first strut and a second strut; the length of the first support rod is greater than that of the second support rod.

3. The wireless charging cartridge of claim 2, wherein the second strut comprises a guide surface; the pushing-down piece comprises a pushing surface; the pushing surface is attached to the guiding surface.

4. The wireless charging cartridge of claim 3, wherein the compression member comprises an upper compression portion and a cushion pad; the upper pressing part is connected with the first supporting rod and is positioned above the first supporting rod; when the electronic product is not arranged in the box body, the upper pressing part is attached to the box body; the buffer pad is arranged on the upper pressing part so as to prevent the electronic product from being damaged when being clamped.

5. The wireless charging cartridge of claim 4, wherein the guide surface is a beveled surface; the upper pressing part comprises an avoidance inclined plane; the avoidance inclined surface is positioned in the upper area of the upper pressing part and used for expanding the inlet of the box body; the inclination direction of the guide surface is the same as that of the avoidance inclined surface.

6. The wireless charging cartridge of claim 2, further comprising an elastic member engaged with the hold-down member to effect a reset of the hold-down member when the electronic product is removed from the cartridge.

7. The wireless charging cartridge of claim 6, wherein the elastic member is a spring mounted on the first strut and the inner wall of the cartridge body; when the electronic product is charged, the spring applies a pulling force to the first supporting rod.

8. The wireless charging cartridge of claim 6, wherein the elastic member is a spring mounted on the second strut and the inner wall of the cartridge body; when the electronic product is charged, the spring applies a propping force to the second supporting rod.

9. The wireless charging cartridge of claim 3, wherein the push-down member comprises a carrying portion, a supporting portion, and a pushing portion; the supporting part comprises a first connecting end and a second connecting end; the first connecting end is connected with the bearing part; the pushing part is arranged on the second connecting end; the pushing surface is an arc surface and is arranged on the pushing part.

10. The wireless charging cartridge of claim 1, wherein the mounting member is vertically connected within the cartridge body; the mounting piece comprises a through hole and a pin shaft; the pushing-down piece penetrates through the through hole and can move up and down on the mounting piece; the pressing piece is movably connected with the mounting piece through the pin shaft.

11. The wireless charging cartridge of claim 1, wherein the cartridge comprises a first cartridge and a second cartridge that are removably connected; the first box body comprises a module connecting plate; the second box body comprises a front guard plate; when the first box body is combined with the second box body, the module connecting plate is arranged opposite to the front guard plate and higher than the front guard plate.

12. A vehicle comprising a wireless charging cartridge according to any one of claims 1-11, said wireless charging cartridge being vertically disposed on the vehicle.