CN210669582U - Deformable mobile phone wireless charging device - Google Patents

Abstract

A deformable mobile phone wireless charging device can be converted between mobile phone charging supports and the shapes of automobiles, and comprises: the wireless charging device comprises a driving assembly, a linkage assembly, a triggering assembly, a wireless charging assembly and an arm protecting assembly, wherein the driving assembly, the wireless charging assembly and the triggering assembly are sequentially connected in a pin joint mode, the linkage assembly is arranged above the wireless charging assembly, two ends of the linkage assembly are respectively connected with the driving assembly and the triggering assembly in a pin joint mode, and the arm protecting assembly is arranged on two sides of the triggering assembly and connected with the triggering assembly in a pin joint mode. The beneficial effects of the utility model reside in that, under the state of placing that does not charge, its appearance is the pattern of toy dolly, puts the outstanding that can not show in indoor to also can regard as kid's toy, when using, the transform that can be quick supplies the cell-phone to charge, brings novel use for the user and experiences.

Description

Deformable mobile phone wireless charging device

Technical Field

The utility model relates to a cell-phone accessory technical field, concretely relates to deformable wireless charging device of cell-phone.

Background

The mobile phone has become an indispensable tool in daily life, various wireless charging devices are also available on the market along with the continuous improvement of the wireless charging technology of the mobile phone, but most of the wireless charging devices only consider the charging function, and when the mobile phone is not charged, the placement of the wireless charging device in an indoor environment looks abrupt and affects the attractiveness, so that the wireless charging device which is not too abrupt in appearance with the indoor environment when not used is needed.

SUMMERY OF THE UTILITY MODEL

In order to effectively solve the problem, the utility model provides a deformable mobile phone wireless charging device.

The technical scheme of the utility model as follows:

a deformable mobile phone wireless charging device can be converted between mobile phone charging supports and the shape of an automobile, and comprises:

the wireless charging device comprises a driving assembly, a linkage assembly, a triggering assembly, a wireless charging assembly and an arm protecting assembly, wherein the driving assembly, the wireless charging assembly and the triggering assembly are sequentially in pin joint connection;

the wireless charging device comprises a driving assembly, a wireless charging coil, a triggering unit, a driving unit and a charging circuit board, wherein the driving assembly is internally provided with the driving unit and the charging circuit board, the driving unit and the charging circuit board are used for driving the linkage assembly, the wireless charging coil is internally provided with the wireless charging coil and used for charging, the triggering unit is internally provided with the triggering unit used for giving an opening signal, the driving unit is electrically connected with the triggering unit, and the charging.

Further, the driving assembly further includes: the wireless charging device comprises a first substrate, a first shell and a first wheel, wherein a driving unit and a charging circuit board are arranged on the first substrate, the charging circuit board is arranged on one side of the first substrate, a group of first pivoting seats and a group of second pivoting seats are symmetrically arranged on the other side of the first substrate respectively, the second pivoting seats are arranged between the first pivoting seats, a backing plate horizontally extends from one side, close to the wireless charging assembly, of the first substrate, the first shell is covered on the first substrate, one side, facing the linkage assembly, of the first shell is open, an opening for connecting an interface of the charging circuit board with an external circuit is reserved on the first shell, a first pivoting hole matched with the wireless charging assembly is symmetrically arranged at the position, close to the other side of the first substrate, of the bottom of the inner side of the first shell, and the output end of the driving unit is connected with a gear, the first wheels are disposed on both sides of the outside of the first housing.

Furthermore, the backing plate is provided with an anti-skid sheet.

Further, the linkage assembly includes: the trigger assembly comprises a trapezoidal block, a first crank arm, a second crank arm, a third crank arm and a connecting plate, wherein a group of first crank arms is symmetrically arranged at one end of the bottom of the trapezoidal block, one end of each first crank arm is connected with the bottom of the trapezoidal block, the other end of each first crank arm is in pin joint with the corresponding first pin joint seat, a third pin joint seat is arranged at the bottom of the trapezoidal block, one end of each connecting plate is in pin joint with the corresponding third pin joint seat, the other end of each connecting plate is in pin joint with one end of the corresponding second crank arm, the other end of each second crank arm is in pin joint with the corresponding second pin joint seat, a tooth-shaped protrusion meshed with the gear in a matching mode is arranged at one end of the second crank arm, the other end of the bottom of the trapezoidal block is opposite to the corresponding third crank arm, one end of the third crank arm is connected with the bottom of the trapezoidal block, and the other.

Further, the trigger component further comprises: the wireless charging device comprises a second substrate and a second shell, wherein the trigger unit is arranged on the second substrate, the middle of the second substrate is provided with a fourth pin joint seat matched with the wireless charging assembly, the second substrate is provided with at least one group of vertical second pin joint holes matched with the arm protection assembly, the fourth pin joint seat is symmetrically arranged on two sides of the second substrate, the second shell covers the second substrate, a fifth pin joint seat matched with the third crank arm is arranged in the second shell, and openings for preventing interference of the arm protection assembly are formed in two sides of the second shell.

Further, the armguard assembly includes: the guard plate comprises a fourth crank arm, a sixth pivoting seat, a guard plate, an adjusting screw and a second wheel, wherein the sixth pivoting seat is arranged on the inner side of the guard plate, one end of the fourth crank arm is pivoted with the second pivoting hole, the other end of the fourth crank arm is pivoted with the sixth pivoting seat, and the guard plate and the second base plate are connected together through at least one fourth crank arm.

Furthermore, a through vertical sliding groove is formed in one end of the protection plate, a spring is arranged in the sliding groove, and the adjusting screw penetrates through the sliding groove to fix the second wheel on the outer side of the protection plate.

Further, the wireless charging assembly further comprises: wireless charging panel, the crank arm of fifth and the crank arm of sixth, wireless charging coil sets up on the wireless charging panel, wireless charging panel one end symmetry is provided with a set of the crank arm of fifth, crank arm of fifth one end with wireless charging panel connects, the crank arm of fifth other end with first pin joint hole cooperation pin joint, the crank arm of sixth sets up the wireless charging panel other end, crank arm of sixth one end with wireless charging panel connects, the crank arm of sixth other end with fourth pin joint seat cooperation pin joint.

The beneficial effects of the utility model reside in that, under the state of placing that does not charge, its appearance is the pattern of toy dolly, puts the outstanding that can not show in indoor to also can regard as kid's toy, when using, the transform that can be quick supplies the cell-phone to charge, brings novel use for the user and experiences.

Drawings

Fig. 1 is a schematic top view of the deformable mobile phone wireless charging device of the present invention;

fig. 2 is a schematic view of the ground structure of the deformable mobile phone wireless charging device of the present invention;

fig. 3 is a schematic cross-sectional structure view of the deformable mobile phone wireless charging device of the present invention;

fig. 4 is a schematic view of the internal structure of the deformable mobile phone wireless charging device of the present invention;

fig. 5 is a schematic structural view of the deformable mobile phone wireless charging device of the present invention converted into a bracket;

fig. 6 is a schematic structural view of the arm guard assembly of the present invention;

fig. 7 is a schematic structural view of a first casing of the present invention;

fig. 8 is a schematic structural view of the wireless charging assembly of the present invention;

fig. 9 is a schematic structural view of a second substrate according to the present invention;

fig. 10 is a usage state diagram of the bracket of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the embodiments described herein are only for explaining the present invention and are not intended to limit the present invention, and the drawings are used for the front and the back of the embodiments, and are only used for clarifying the positional relationship and are not intended to limit the present invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention.

As shown in fig. 1-5, a deformable mobile phone wireless charging device is convertible between a mobile phone charging stand and a car, and includes:

drive assembly 1, linkage subassembly 2, trigger subassembly 3, wireless subassembly 4 and the armguard subassembly 5 of charging, drive assembly 1, wireless subassembly 4, the pin joint connection in order of triggering the subassembly 3 of charging, linkage subassembly 2 sets up wireless subassembly 4 top of charging, 2 both ends of linkage subassembly respectively with drive assembly 1 and the pin joint connection of triggering subassembly 3, the armguard subassembly 5 sets up trigger subassembly 3 both sides and with trigger subassembly 3 pin joint connection.

Be provided with in the drive assembly 1 and be used for the drive unit 11 and the charging circuit board 12 of linkage subassembly 2, be provided with the wireless charging coil 41 that is used for charging in the wireless subassembly 4 that charges, be provided with the trigger unit that is used for giving opening signal in the trigger assembly 3, drive unit 11 with trigger unit electric connection, charging circuit board 12 with wireless charging coil 41 electric connection.

The car is characterized in that the driving assembly 1, the wireless charging assembly 4, the triggering assembly 3 and the linkage assembly 2 are combined into a shape similar to a car, the driving assembly 1 and the triggering assembly 3 are respectively used as a car head and a car tail, the linkage assembly 2 and the arm guard assembly 5 form a car body, and the wireless charging assembly 4 is used as a chassis.

As shown in fig. 1-5 and 7, the driving assembly 1 further includes: the wireless charging device comprises a first base plate 13, a first shell 14 and a first wheel 15, wherein the driving unit 11 and the charging circuit board 12 are arranged on the first base plate 13, the charging circuit board 12 is arranged on one side of the first base plate 13, a group of first pivot seats 131 and a group of second pivot seats 132 are symmetrically arranged on the other side of the first base plate 13 respectively, the second pivot seats 132 are arranged between the first pivot seats 131, a backing plate 133 horizontally extends from one side, close to the wireless charging component 4, of the first base plate 13, an anti-slip sheet 134 is arranged on the backing plate 133, the first shell 14 is covered on the first base plate 13, the first shell 14 is open towards one side of the linkage component 2, an opening allowing the interface of the charging circuit board 12 to be connected with an external circuit is reserved on the first shell 14, and a position, close to the other side of the first base plate 13, of the bottom of the inner side of the first shell 14 is symmetrically arranged for being connected with the wireless charging component 4 first pivot holes 135. The charging circuit board 12 is a rectifying circuit board, the driving unit 11 is an electric motor, and an output end of the driving unit 11 is connected with a gear 111. The first wheel 15 is disposed at two sides of the outer portion of the first housing 14 in a screw or pivot manner for decoration. The corner of the first substrate 13 is provided with a convex pillar 136, the bottom of the first casing 14 is provided with an inserting hole, and the convex pillar 136 is matched with the inserting hole to connect the first substrate 13 and the first casing 14 together in an inserting and matching manner. The charging circuit board 12 is a conventional circuit board for wireless charging.

As shown in fig. 1-5, the linkage assembly 2 includes: a trapezoid block 21, a first crank arm 22, a second crank arm 23, a third crank arm 24 and a connecting plate 25, wherein one end of the bottom of the trapezoid block 21 is symmetrically provided with a set of first crank arms 22, one end of the first crank arm 22 is connected with the bottom of the trapezoid block 21, the other end of the first crank arm 22 is pivotally connected with the first pivot seat 131, the bottom of the trapezoid block 21 is provided with a third pivot seat 211, one end of the connecting plate 25 is pivotally connected with the third pivot seat 211, the other end of the connecting plate 25 is pivotally connected with one end of the second crank arm 23, the other end of the second crank arm 23 is pivotally connected with the second pivot seat 132, one end of the second crank arm 23 pivotally connected with the second pivot seat 132 is provided with a tooth-shaped protrusion 231 engaged with the gear 111, the other end of the bottom of the trapezoid block 21 is connected with the third crank arm 24, and one end of the third crank arm 24 is connected with the bottom of the trapezoid block 21, the other end of the third crank arm 24 is pivotally connected to the trigger assembly 3.

As shown in fig. 1-5 and 9, the triggering assembly 3 further includes: the wireless charging device comprises a second substrate 31 and a second shell 32, the trigger unit is arranged on the second substrate 31, a fourth pivot seat 311 matched with the wireless charging component 4 is arranged in the middle of the second substrate 31, at least one group of vertical second pivot holes 312 matched with the arm protection component 5 are symmetrically arranged on the second substrate 31 and positioned on two sides of the fourth pivot seat 311, the second shell 32 covers the second substrate 31, a fifth pivot seat 321 matched with the third crank arm 24 is arranged in the second shell 32, a convex column 136 is arranged on the second substrate 31, a plug hole is arranged at the bottom of the second shell 32, and the convex column 136 is matched with the plug hole to connect the second substrate 31 and the second shell 32 in a plug-in matching manner. The second housing 32 is provided at both sides with openings that prevent interference with the arm guard assembly 5. The trigger unit can be powered by an independent power supply, for example, a battery, and the trigger unit can be an existing touch control element, for example, a photosensitive infrared receiving head IRM-3638T, a capacitive spring touch switch, a micro-motion tact switch, and the like.

As shown in fig. 1-6, the arm guard assembly 5 includes: the wheel guard assembly comprises a fourth crank arm 51, a sixth pivoting seat 52, a guard plate 53, an adjusting screw 54 and a second wheel 55, wherein the sixth pivoting seat 52 is arranged on the inner side of the guard plate 53, one end of the fourth crank arm 51 is pivoted with the second pivoting hole 312, the other end of the fourth crank arm 51 is pivoted with the sixth pivoting seat 52, and at least one fourth crank arm 51 connects the guard plate 53 and the second base plate 31 together. One end of the guard plate 53 is provided with a through vertical sliding groove 531, a spring is arranged in the sliding groove 531, the adjusting screw 54 penetrates through the sliding groove 531 to fix the second wheel 55 on the outer side of the guard plate 53, the upper and lower positions of the second wheel 55 can be adjusted by loosening the adjusting screw 54, and the adjusting screw 54 can be tightened to fix the second wheel 55.

As shown in fig. 1-5 and 8, the wireless charging assembly 4 further includes: wireless charging panel 42, the fifth crank arm 43 and the sixth crank arm 44, wireless charging coil 41 sets up on the wireless charging panel 42, wireless charging panel 42 one end symmetry is provided with a set of the fifth crank arm 43, fifth crank arm 43 one end with wireless charging panel 42 is connected, the fifth crank arm 43 other end with first pin joint hole 135 cooperation pin joint, sixth crank arm 44 sets up the wireless charging panel 42 other end, sixth crank arm 44 one end with wireless charging panel 42 is connected, the sixth crank arm 44 other end with the cooperation pin joint of fourth pin joint seat 311.

When the trigger unit meets the trigger condition, the trigger unit transmits an electric signal to the driving unit 11, at this time, the trapezoid block 21 is pivoted on the first base plate 13 through the first crank arm 22, when the driving unit 11 acts, the second crank arm 23 drives the trapezoid block 21 to turn over, when the trapezoid block 21 turns over, the third crank arm 24 also drives the trigger assembly 3 to move together, and because the second shell 32 is pivoted with the third crank arm 24, the second base plate 31 is pivoted with the sixth crank arm 44, the trigger assembly 3 and the trapezoid block 21 also turn over in the turning process, and simultaneously the trigger assembly 3 drives the wireless charging plate 42 to turn over together, and then the arm protection assembly 5 is manually unfolded towards two sides, so that the mobile phone charging device is converted from the normally placed trolley state into the support state through the series of actions, as shown in fig. 10. Under the support state, place the cell-phone on the backing plate, what the cell-phone just can incline leans on to charge to the cell-phone on the wireless charging panel, and the adjustment about the size difference that can carry out according to the cell-phone is gone on to the second wheel.

The beneficial effects of the utility model reside in that, under the state of placing that does not charge, its appearance is the pattern of toy dolly, puts the outstanding that can not show in indoor to also can regard as kid's toy, when using, the transform that can be quick supplies the cell-phone to charge, brings novel use for the user and experiences.

Claims (9)

1. A deformable mobile phone wireless charging device can be converted between mobile phone charging supports and the shapes of automobiles, and is characterized by comprising:

drive assembly (1), linkage subassembly (2), trigger subassembly (3), wireless subassembly (4) and the armguard subassembly (5) of charging, drive assembly (1), wireless subassembly (4) of charging, trigger subassembly (3) pin joint in order, linkage subassembly (2) set up wireless subassembly (4) top of charging, linkage subassembly (2) both ends respectively with drive assembly (1) and trigger subassembly (3) pin joint, armguard subassembly (5) set up trigger subassembly (3) both sides and with trigger subassembly (3) pin joint.

2. The wireless charging device for the mobile phone according to claim 1, wherein a driving unit (11) and a charging circuit board (12) for driving the linkage assembly (2) are arranged in the driving assembly (1), a wireless charging coil (41) for charging is arranged in the wireless charging assembly (4), a triggering unit for giving an opening signal is arranged in the triggering assembly (3), the driving unit (11) is electrically connected with the triggering unit, and the charging circuit board (12) is electrically connected with the wireless charging coil (41).

3. The wireless charging device for mobile phone according to claim 2, wherein the driving assembly (1) further comprises: the charging device comprises a first base plate (13), a first shell (14) and a first wheel (15), wherein a driving unit (11) and a charging circuit board (12) are arranged on the first base plate (13), the charging circuit board (12) is arranged on one side of the first base plate (13), a group of first pivot seats (131) and a group of second pivot seats (132) are symmetrically arranged on the other side of the first base plate (13) respectively, the second pivot seats (132) are arranged between the first pivot seats (131), a backing plate (133) horizontally extends from one side, close to a wireless charging assembly (4), of the first base plate (13), the first shell (14) is covered on the first base plate (13), the first shell (14) is open towards one side of a linkage assembly (2), and an opening for connecting an interface of the charging circuit board (12) with an external circuit is reserved on the first shell (14), the position of the bottom of the inner side of the first shell (14) close to the other side of the first base plate (13) is symmetrically provided with a first pivot hole (135) matched with the wireless charging assembly (4), the output end of the driving unit (11) is connected with a gear (111), and the first wheel (15) is arranged on two sides of the outer portion of the first shell (14).

4. The wireless charging device for the mobile phone according to claim 3, wherein the pad (133) is provided with a non-slip sheet (134).

5. A wireless charging device for a mobile phone according to claim 3, wherein the linkage assembly (2) comprises: the device comprises a trapezoidal block (21), a first crank arm (22), a second crank arm (23), a third crank arm (24) and a connecting plate (25), wherein a group of first crank arms (22) are symmetrically arranged at one end of the bottom of the trapezoidal block (21), one end of each first crank arm (22) is connected with the bottom of the trapezoidal block (21), the other end of each first crank arm (22) is in pivot connection with a first pivot connection seat (131), a third pivot connection seat (211) is arranged at the bottom of the trapezoidal block (21), one end of each connecting plate (25) is in pivot connection with the third pivot connection seat (211), the other end of each connecting plate (25) is in pivot connection with one end of the corresponding second crank arm (23), the other end of each second crank arm (23) is in pivot connection with the corresponding second pivot connection seat (132), one end of each second crank arm (23) in pivot connection with the corresponding second pivot connection seat (132) is provided with a toothed protrusion (231) which is in fit engagement with the gear (111), the other end of the bottom of the trapezoidal block (21) is opposite to the third crank arm (24), one end of the third crank arm (24) is connected with the bottom of the trapezoidal block (21), and the other end of the third crank arm (24) is pivoted with the trigger component (3).

6. The wireless charging device of mobile phone according to claim 5, wherein the trigger component (3) further comprises: second base plate (31) and second casing (32), the trigger unit sets up on second base plate (31), second base plate (31) middle part be provided with wireless subassembly (4) complex fourth pin joint seat (311) that charges, lie in on second base plate (31) fourth pin joint seat (311) both sides still symmetry be provided with at least a set of with armguard subassembly (5) complex vertical second pin joint hole (312), second casing (32) cover is established on second base plate (31), be provided with in second casing (32) with third crank arm (24) complex fifth pin joint seat (321), second casing (32) both sides be provided with prevent with the opening that armguard subassembly (5) interfered.

7. The wireless charging device of mobile phone according to claim 6, wherein the arm guard assembly (5) comprises: the wheel comprises a fourth crank arm (51), a sixth pivoting seat (52), a protection plate (53), an adjusting screw (54) and a second wheel (55), wherein the sixth pivoting seat (52) is arranged on the inner side of the protection plate (53), one end of the fourth crank arm (51) is pivoted with the second pivoting hole (312), the other end of the fourth crank arm (51) is pivoted with the sixth pivoting seat (52), and the protection plate (53) is connected with the second base plate (31) through at least one fourth crank arm (51).

8. The wireless charging device for the mobile phone according to claim 7, wherein one end of the protective plate (53) is provided with a through vertical sliding groove (531), a spring is arranged in the sliding groove (531), and the adjusting screw (54) penetrates through the sliding groove (531) to fix the second wheel (55) on the outer side of the protective plate (53).

9. The wireless charging device of mobile phone according to claim 6, wherein the wireless charging assembly (4) further comprises: wireless charging panel (42), the arm (43) that cranks and sixth crank arm (44) are cranked to the wireless, wireless charging coil (41) sets up on wireless charging panel (42), wireless charging panel (42) one end symmetry is provided with a set of the arm (43) that cranks of fifth, arm (43) one end that cranks of fifth with wireless charging panel (42) are connected, the arm (43) other end that cranks of fifth with first pin joint hole (135) cooperation pin joint, the arm (44) that cranks sets up the wireless charging panel (42) other end, arm (44) that cranks of sixth one end with wireless charging panel (42) are connected, the arm (44) other end that cranks of sixth with fourth pin joint seat (311) cooperation pin joint.

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