CN219875213U - Combined multifunctional wireless charging device - Google Patents

Abstract

The combined multifunctional wireless charging device comprises a charging base, a mobile phone charging seat arranged at the top of the charging base, and a watch charging seat arranged at the top of the mobile phone charging seat, wherein a carrier is arranged at the top of the mobile phone charging seat, and a power adapter is arranged on the carrier; the watch charging seat is arranged on the carrying platform through the main body shell and is spliced on the power adapter through the adapter interface so that the watch charging seat is detachably connected with the mobile phone charging seat; when the switching interface is plugged in the power supply switching connector, the control circuit board takes electricity from the mobile phone charging seat. Compared with the prior art, the utility model has the beneficial effects that: the watch charging seat can be separated for independent use and independent carrying relative to the mobile phone charging seat, the same mobile phone charging seat can be matched with the watch charging seat according to intelligent watches of different brands/models, and the application is more flexible; moreover, the mobile phone charging seat supports that the smart phone is matched with the same mobile phone charging coil in a horizontal and vertical posture for wireless charging.

Description

Combined multifunctional wireless charging device

Technical Field

The utility model relates to the technical field of wireless charging, in particular to a combined multifunctional wireless charging device.

Background

As a mobile terminal, smart phones and smart watches are widely used in life. For mobile terminals such as smart phones and smart watches, charging and cruising are necessary daily maintenance.

It is known in the prior art that a charging device capable of providing wireless charging for a smart phone and wireless charging for a smart watch is provided with a mobile phone charging seat for placing the smart phone, the mobile phone charging seat is used for being matched with the smart phone to perform wireless charging, a watch charging seat for placing the smart watch is fixedly arranged at the top of the mobile phone charging seat, and the watch charging seat is used for being matched with the smart watch to perform wireless charging.

In the charging device in the prior art, the watch charging seat cannot be separated from the mobile phone charging seat to be used independently, and the whole charging device can only support a single brand/model of intelligent watch, so that the compatibility is quite limited. Clearly, the prior art is in need of improvement.

Disclosure of Invention

The present utility model is directed to a combined multifunctional wireless charging device that overcomes the above-mentioned deficiencies of the prior art. For this purpose, the present utility model adopts the following technical scheme.

The combined multifunctional wireless charging device comprises a charging base, a mobile phone charging seat arranged at the top of the charging base, and a watch charging seat arranged at the top of the mobile phone charging seat, wherein the mobile phone charging seat is used for wirelessly charging a smart phone, the watch charging seat is used for wirelessly charging a smart watch, the top of the mobile phone charging seat is provided with a carrier, and the carrier is provided with a power adapter; the watch charging seat is provided with a main body shell and a control circuit board arranged in the main body shell, the outer wall of the main body shell is provided with a switching jack, the control circuit board is provided with a switching interface matched in the switching jack, the top surface of the main body shell forms a watch supporting surface, a watch charging coil matched under the watch supporting surface is arranged in the main body shell, and the watch charging coil is powered by the control circuit board; the watch charging seat is arranged on the carrying platform through the main body shell and is spliced on the power adapter through the adapter interface so that the watch charging seat is detachably connected with the mobile phone charging seat; when the switching interface is plugged in the power supply switching connector, the control circuit board takes electricity from the mobile phone charging seat.

In a further technical scheme, the charging base is provided with a base shell which is horizontally arranged and a main circuit board which is arranged in the base shell, the top surface of the base shell is provided with an upturned inclined table at the front section, the outer wall of the base shell is provided with a power jack, and the main circuit board is provided with a power interface which is matched in the power jack; the mobile phone charging seat is provided with a bracket shell arranged at the top of the base shell, and the carrying platform is arranged at the top of the bracket shell; the front side of the support shell forms a mobile phone supporting surface vertical to the upper edge of the inclined table, the lower end of the mobile phone supporting surface is aligned with the rear edge of the inclined table, and a mobile phone charging coil matched below the mobile phone supporting surface is arranged in the support shell; the main circuit board is connected with an external power supply through a power interface, and the mobile phone charging coil and the power adapter are powered by the main circuit board.

Preferably, the upper edge of the inclined table is provided with an anti-slip rubber mat.

Preferably, the mobile phone charging coil is provided with a mobile phone induction area with a protruding surface on the mobile phone supporting surface, and the mobile phone charging coil is matched below the mobile phone induction area.

Preferably, the mobile phone support surface is provided with a groove corresponding to the lower part of the mobile phone charging coil, a mobile phone support which is flush with the mobile phone support surface is arranged in the groove, the lower edge of the mobile phone support is pivotally connected in the groove, and the mobile phone support can just turn outwards to ninety degrees relative to the mobile phone support surface.

Furthermore, the side of the mobile phone support facing the groove is provided with anti-slip rubber.

Preferably, the inner edge of the groove is provided with a convex edge which is interfered with the convex edge, the outer edge of the mobile phone support is provided with a convex edge which is interfered with the convex edge, and the mobile phone support is turned inwards to be level with the mobile phone supporting surface when the mobile phone support is turned inwards, and the convex edge is just resisted under the convex edge.

Preferably, the convex edges and the convex edges are axially parallel cylindrical structures.

Preferably, the upper edge of the mobile phone support/groove is provided with a notch.

In a further aspect, the watch support surface has a watch sensing area with a protruding surface, and the watch charging coil is fitted under the watch sensing area.

Compared with the prior art, the utility model has the beneficial effects that:

the watch charging seat can be separated for independent use and independent carrying relative to the mobile phone charging seat, the same mobile phone charging seat can be matched with the watch charging seat according to intelligent watches of different brands/models, and the application is more flexible; moreover, the mobile phone charging seat supports that the smart phone is matched with the same mobile phone charging coil in a horizontal and vertical posture for wireless charging.

The utility model will be further described with reference to the drawings and detailed description.

Drawings

Fig. 1 is a schematic diagram of the combined state of the present utility model.

Fig. 2 is a schematic view of the present utility model in an exploded state.

Fig. 3 is an assembled schematic view of the charging base in the present utility model.

Fig. 4 is an assembly schematic diagram of a mobile phone charging stand according to the present utility model.

Fig. 5 is an assembled schematic view of the watch cradle of the present utility model.

Fig. 6 is a partial enlarged view at a in fig. 5.

Fig. 7 is a partial enlarged view at B in fig. 5.

Detailed Description

As shown in fig. 1 to 5, in one embodiment, the combined multifunctional wireless charging device of the present utility model includes a charging base 1, a mobile phone charging base 2 disposed at the top of the charging base 1, and a watch charging base 3 disposed at the top of the mobile phone charging base 2, wherein the mobile phone charging base 2 is used for wirelessly charging a smart phone, the watch charging base 3 is used for wirelessly charging a smart watch, a carrier 4 is disposed at the top of the mobile phone charging base 2, and a power adapter 5 is disposed on the carrier 4; the watch charging seat 3 is provided with a main body shell 31 and a control circuit board 32 arranged in the main body shell 31, a switching jack 33 is arranged on the outer wall of the main body shell 31, a switching interface 34 matched in the switching jack 33 is arranged on the control circuit board 32, a watch supporting surface 35 is formed on the top surface of the main body shell 31, a watch charging coil 36 matched below the watch supporting surface is arranged in the main body shell 31, and the watch charging coil 36 is powered by the control circuit board 32; the watch charging seat 3 is placed on the carrying platform 4 through the main body shell 31 and is spliced with the power adapter 5 through the adapter interface 34 so that the watch charging seat 3 is detachably connected with the mobile phone charging seat 2; when the adapter interface 34 is plugged into the power adapter 5, the control circuit board 32 takes power from the mobile phone charging seat 2.

In the above embodiment, the watch cradle 3 is detachably connected to the mobile phone cradle 2 by plugging the adaptor interface 34 into the power adaptor 5, and the watch cradle 3 can be separated from the mobile phone cradle 2 for independent use and independent carrying. When the watch charging stand 3 is used independently,

preferably, the power adapter 5 adopts a TypeC male connector, and the adapter interface 34 adopts a TypeC female connector

In the above embodiment, corresponding watch charging seats 3 are prefabricated in advance according to the smart watches with different brands/models, and the same mobile phone charging seat 2 can be matched with the corresponding watch charging seats 3 according to the smart watches with different brands/models, so that the application is more flexible; moreover, the mobile phone charging stand 2 supports that the smart phone is matched with the same mobile phone charging coil in a horizontally placed and vertically placed posture respectively to perform wireless charging.

In the above embodiment, the charging base 1 has a base housing 11 placed horizontally, a main circuit board 12 disposed inside the base housing 11, the top surface of the base housing 11 has an upturned ramp 13 at the front section, a power jack 14 is provided on the outer wall of the base housing 11, and a power interface 15 fitted in the power jack 14 is provided on the main circuit board 12; the mobile phone charging seat 2 is provided with a bracket shell 21 arranged at the top of the base shell 11, and the carrier 4 is arranged at the top of the bracket shell 21; the front side of the bracket shell 21 forms a mobile phone supporting surface 22 perpendicular to the upper edge of the inclined table 13, the lower end of the mobile phone supporting surface 22 is aligned with the rear edge of the inclined table 13, and a mobile phone charging coil 23 matched below the mobile phone supporting surface 22 is arranged in the bracket shell 21; the main circuit board 12 is connected with an external power supply through the power interface 15, and the mobile phone charging coil 23 and the power adapter 5 are powered by the main circuit board 12. With the above arrangement, the smartphone is placed on the ramp 13 along the lower edge after being upright, and then is backed up against the smartphone support surface 22, and the height of the smartphone charging coil 23 is matched with the induction coil in the smartphone, so that more effective wireless charging is performed in the smartphone upright posture.

Preferably, the power interface 15 is a TypeC interface.

Preferably, the upper edge of the inclined table 13 is provided with an anti-slip rubber mat 16, so that the smart phone on the inclined table 13 is not easy to slip.

Preferably, the mobile phone charging coil 23 is provided with a mobile phone induction zone 20 with a protruding surface on the mobile phone supporting surface 22, and the mobile phone charging coil 23 is matched under the mobile phone induction zone 20. The mobile phone induction area 20 protrudes out of the mobile phone supporting surface 22, so that the mobile phone charging coil 23 can be ensured to be closer to the smart phone, and the charging efficiency is higher. Optionally, the handset sensing region 20 protrudes two millimeters from the handset support surface 22.

In a preferred embodiment, the mobile phone support surface 22 has a recess 24 corresponding to the lower portion of the mobile phone charging coil 23, the recess 24 is provided with a mobile phone support 25 flush with the mobile phone support surface 22, the lower edge of the mobile phone support 25 is pivotally connected to the recess 24, and the mobile phone support 25 can just be turned out of the recess 24 to ninety degrees relative to the mobile phone support surface 22. When the mobile phone support 25 is turned over to ninety degrees relative to the mobile phone supporting surface 22 outwards from the groove 24, the smart phone can be placed on the mobile phone support 25 along the lower edge after being horizontally placed, then the smart phone is backed on the mobile phone supporting surface 22, the height of the mobile phone charging coil 23 is matched with the induction coil in the smart phone, and more effective wireless charging is carried out under the horizontal posture of the smart phone.

Furthermore, the anti-slip rubber 26 is arranged on the side of the mobile phone support 25 facing the groove 24, so that the smart phone on the mobile phone support 25 is not easy to slide.

In a preferred embodiment, as shown in fig. 6 and 7, the inner edge of the groove 24 is provided with a rib 241, the outer edge of the phone holder 25 is provided with a convex edge 251 interfering with the rib 241, and the phone holder 25 is turned into the groove 24 to be level with the phone supporting surface 22, and the convex edge 251 is abutted just under the rib 241. In view of the interference between the protruding edge 251 and the protruding edge 241, the mobile phone holder 25 can just form a lock by the interference fit between the protruding edge 251 and the protruding edge 241 when entering and exiting the groove 24.

Preferably, the convex edges 241 and the convex edges 251 are axially parallel cylindrical structures, so that the convex edges and the convex edges can be matched more smoothly.

Preferably, the upper edge of the mobile phone support 25/groove 24 is provided with a notch 27, and the notch 27 forms a button for facilitating finger operation so as to scratch the mobile phone support 25 from the groove 24. Preferably, the notch 27 is provided at the upper edge of the recess 24.

In a further embodiment, the watch support surface 35 has a watch sensing area 30 with a protruding surface, and the watch charging coil 36 is fitted under the watch sensing area 30. The watch sensing area 30 protrudes from the watch support surface 35, so that the watch charging coil 36 can be ensured to be closer to the intelligent watch, and the charging efficiency is higher. Optionally, the watch sensing area 30 protrudes two millimeters beyond the watch support surface 35.

It will be apparent to those skilled in the art that the scope of the present utility model is not limited to the details of the above-described exemplary embodiments, and that the embodiments of all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein by those skilled in the art without departing from the spirit or essential characteristics of the utility model.

Claims (10)

1. The utility model provides a multi-functional wireless charging device of combination formula, includes the charging base, locates the cell-phone charging seat at charging base top, locates the wrist-watch charging seat at cell-phone charging seat top, and the cell-phone charging seat is used for carrying out wireless charging for the smart mobile phone, and the wrist-watch charging seat is used for carrying out wireless charging for the intelligent wrist-watch, its characterized in that: the top of the mobile phone charging seat is provided with a carrying platform, and the carrying platform is provided with a power adapter; the watch charging seat is provided with a main body shell and a control circuit board arranged in the main body shell, the outer wall of the main body shell is provided with a switching jack, the control circuit board is provided with a switching interface matched in the switching jack, the top surface of the main body shell forms a watch supporting surface, a watch charging coil matched under the watch supporting surface is arranged in the main body shell, and the watch charging coil is powered by the control circuit board; the watch charging seat is arranged on the carrying platform through the main body shell and is spliced on the power adapter through the adapter interface so that the watch charging seat is detachably connected with the mobile phone charging seat; when the switching interface is plugged in the power supply switching connector, the control circuit board takes electricity from the mobile phone charging seat.

2. The combination multi-function wireless charging device of claim 1, wherein: the charging base is provided with a base shell which is horizontally arranged and a main circuit board which is arranged in the base shell, the top surface of the base shell is provided with an upturned inclined table at the front section, the outer wall of the base shell is provided with a power jack, and the main circuit board is provided with a power interface which is matched in the power jack; the mobile phone charging seat is provided with a bracket shell arranged at the top of the base shell, and the carrying platform is arranged at the top of the bracket shell; the front side of the support shell forms a mobile phone supporting surface vertical to the upper edge of the inclined table, the lower end of the mobile phone supporting surface is aligned with the rear edge of the inclined table, and a mobile phone charging coil matched below the mobile phone supporting surface is arranged in the support shell; the main circuit board is connected with an external power supply through a power interface, and the mobile phone charging coil and the power adapter are powered by the main circuit board.

3. The combination multi-function wireless charging device of claim 2, wherein: the upper edge of the inclined table is provided with an anti-slip rubber mat.

4. The combination multi-function wireless charging device of claim 2, wherein: the mobile phone charging coil is provided with a mobile phone induction zone with a protruding surface on the mobile phone supporting surface, and the mobile phone charging coil is matched below the mobile phone induction zone.

5. The combination multi-function wireless charging device of claim 2, wherein: the mobile phone support is provided with a groove corresponding to the lower part of the mobile phone charging coil, a mobile phone support which is flush with the mobile phone support surface is arranged in the groove, the lower edge of the mobile phone support is pivotally connected in the groove, and the mobile phone support can just turn outwards to ninety degrees relative to the mobile phone support surface.

6. The combination multi-function wireless charging device of claim 5, wherein: the cell phone stand faces the one side of recess and is equipped with anti-skidding rubber.

7. The combination multi-function wireless charging device of claim 5, wherein: the inner edge of the groove is provided with a convex edge which is interfered with the convex edge, the mobile phone support is turned inwards to be level with the mobile phone supporting surface, and the convex edge is just resisted under the convex edge.

8. The combination multi-function wireless charging device of claim 7, wherein: the convex edges and the convex edges are in a cylindrical surface structure which is parallel to each other in the axial direction.

9. The combination multi-function wireless charging device of claim 7, wherein: the upper edge of the mobile phone support/groove is provided with a notch.

10. The combination multi-function wireless charging device of claim 1, wherein: the watch support surface has a watch sensing area with a protruding surface, and the watch charging coil is fitted under the watch sensing area.