CN111245054A - Vehicle-mounted wireless charging device - Google Patents

Abstract

The invention provides a vehicle-mounted wireless charging device, and belongs to the technical field of machinery. The mobile phone solves the problems that an existing mobile phone is easy to deviate from a wireless charging area and poor in charging reliability. This on-vehicle wireless charging device, including the base that has the wireless district that charges, fix on the base and with the wireless module that charges that the district is relative and the shift knob that has the clamp plate that charges, the wireless district upper berth that charges is equipped with the cell-phone cushion that elastic material made, shift knob sliding connection on the base and the clamp plate can slide to the top in wireless district that charges, still is equipped with the locking subassembly that can make both mutual locking between shift knob and the base. The mobile phone is compressed tightly and fixed by mainly relying on the locking component to lock the switch button and the base, the switch button and the base are rigidly positioned, and even if the mobile phone encounters a continuously bumpy road condition, the mobile phone cannot deviate from a wireless charging area, so that the charging reliability is improved.

Description

Vehicle-mounted wireless charging device

Technical Field

The invention belongs to the technical field of machinery, and relates to a vehicle-mounted wireless charging device.

Background

With the development of mobile internet technology, mobile phones have become indispensable articles in people's lives. With the improvement of living standard of people, automobiles also become a common tool for people to travel in daily life, so that the two indispensable objects are closely linked, for example, a call or a song listening is realized by using the connection between a mobile phone and vehicle-mounted Bluetooth, and for example, a driver can accurately find a driving route only by means of mobile phone navigation due to complex road conditions or unknown strange areas in the process of driving the automobile to reach the purpose.

With the development of electronic technology, wireless charging has become the standard of middle and high-end mobile phones, and more vehicle enterprises load wireless charging equipment on automobiles. Limited by the prior art, in order to obtain a better charging effect, the mobile phone must be in good contact with the wireless charging module. Most motorcycle types arrange the antiskid cushion under the wireless module that charges at present, but when the car accelerates or cross the road of jolting, the cell-phone takes place to vibrate easily to can lead to charge efficiency greatly reduced. Moreover, the mobile phone deviates from the defined charging area, and cannot be charged at all, so that the mobile phone and the automobile are seriously damaged due to the heating of the mobile phone. Therefore, an in-vehicle wireless charging device with a mobile phone holding mechanism has been developed.

For example, the chinese patent application (application No. 201821424543.6) discloses a vehicle-mounted wireless charging handset support, which includes a charging seat, a clamping device and a wireless charging module, wherein the wireless charging module and the clamping device are respectively disposed on the charging seat, the clamping device includes an elastic member, two clamping arms, and a position-limiting guide block disposed at the inner side of the clamping arms and having a wedge-shaped structure, and the distance between the two position-limiting guide blocks is gradually reduced from top to bottom, the elastic member is clamped between the two clamping arms, and the elastic member has a tendency to make the two clamping arms close to each other. The limiting guide block is of a wedge-shaped structure with a thin upper part and a thick lower part, the elastic piece is clamped between the two clamping arms, and the elastic force of the elastic piece is used as restoring force, so that the mobile phone is firmly clamped, and the position of the mobile phone and the position of the wireless charging module are fixed.

Although the above-mentioned on-vehicle wireless cell phone stand that charges can realize the centre gripping to the cell-phone to a certain extent, it still has following defect: the clamping device clamps the mobile phone firmly by using the elastic force of the elastic piece as the restoring force, namely the whole mobile phone is clamped and fixed and is realized by the elastic force of the elastic piece. Simultaneously in the centre gripping in-process that repetitious usage is relapseed, the elastic component also can produce elastic fatigue, leads to whole clamping device's clamping-force to descend to the effect of centre gripping location also worsens, thereby also can make the cell-phone with jolt the road conditions and deviate from wireless charging area easily, the reliability of charging is relatively poor.

In order to improve the charging reliability, it is conventional practice to select a spring made of an elastic material having a large elastic force and a good fatigue resistance, and although the probability of occurrence of the above problem can be reduced to some extent, the spring still remains and the cost is high.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a vehicle-mounted wireless charging device, which aims to solve the technical problems that: how to solve the current cell-phone and deviate from wireless charging area easily, the problem that the reliability of charging is poor.

The purpose of the invention can be realized by the following technical scheme: the utility model provides an on-vehicle wireless charging device, includes wireless charging module and the base that has the wireless district that charges, wireless charging module fixes on the base and relative with the wireless district that charges, still be equipped with the positioning mechanism who is used for fixing a position the cell-phone in the wireless district that charges, a serial communication port, wireless charging district upper berth is equipped with the cell-phone cushion that elastic material made, positioning mechanism is including the shift knob who has the clamp plate, shift knob sliding connection just on the base the clamp plate can slide to the top in wireless district that charges, still be equipped with the locking subassembly that can make both mutual locking between shift knob and the base.

This on-vehicle wireless charging device is anti-conventional vehicle-mounted support adopts the structural design of elastic component centre gripping, the cell-phone location structure of a brand-new structure has been designed, the form that compresses tightly through shift knob's clamp plate changes into fixes, when the cell-phone need charge promptly, the locking of shift knob and base is relieved through the locking subassembly, slide shift knob's clamp plate to the top in wireless district that charges, then place the cell-phone in wireless district that charges and be located the clamp plate below, press shift knob down, make shift knob slide down mutually, the clamp plate compresses tightly the cell-phone on the base, thereby the locking subassembly realizes the fixed of cell-phone on the base with shift knob and base locking again. Because the mobile phone is pressed and fixed, the locking component is mainly used for locking the switch button and the base, the mobile phone and the base can not move relatively even if being subjected to a larger external force, and can not shake, meanwhile, the mobile phone rubber cushion can bear larger pressing force, has certain buffer force after being pressed, is not easy to be pressed into a ring, and can be compressed and deformed after being pressed, thereby equivalently applying an elastic pretightening force to the mobile phone, so that no gap exists between the mobile phone and the base, and a larger frictional resistance is formed in the horizontal direction, thereby realizing the omnibearing positioning of the mobile phone on the X, Y, Z shaft, ensuring better stability after being pressed, even if the mobile phone meets a continuously bumpy road condition, the mobile phone cannot deviate from a wireless charging area, and the charging reliability is improved.

In the above vehicle-mounted wireless charging device, a first elastic element which enables the switch button to always have an upward sliding trend is further arranged between the switch button and the base, and the first elastic element is compressed when the switch button and the base are locked. The arrangement of the first elastic piece enables the pressing plate on the switch button to automatically pop up and slide to the upper side of the wireless charging area under the action of elastic potential energy of the first elastic piece after the switch button and the base are unlocked, and operation is more convenient.

In the above vehicle-mounted wireless charging device, a compensation rubber mat made of an elastic material is fixed on the lower surface of the pressing plate. The setting of compensation cushion can further avoid the clamp plate to cause the damage at the in-process that compresses tightly the cell-phone to the cell-phone, and the elasticity pretightning force of compensation cushion can further guarantee the stability of cell-phone after being compressed tightly simultaneously, makes it more difficult skew wireless charging area, has further improved the reliability of charging.

In foretell on-vehicle wireless charging device, the locking subassembly includes casing, spring bolt and lock core, the casing is connected on the base, two elasticity tapered ends have on the lock core, the spring bolt is fixed shift knob is last, lock core sliding connection is in the casing, the spring bolt can stretch into between two elasticity tapered ends, and works as two elasticity tapered ends of lock core slide and fold each other in the casing and relative casing locking with the spring bolt locking, work as the relative casing unblock of lock core and two elasticity tapered ends can open the unblock that realizes the spring bolt each other when sliding outside the casing. When the mobile phone locking device is used, the lock cylinder and the shell are unlocked firstly, the elastic potential energy of the first elastic piece is released, the switch button slides upwards to drive the lock cylinder to slide upwards, the two elastic lock heads of the lock cylinder slide out of the shell and are opened mutually under the action of the elastic force of the switch button, the lock tongue is unlocked, the switch button can continue to slide upwards until the pressing plate is positioned above the wireless charging area, then the mobile phone is placed in the wireless charging area and is positioned below the pressing plate, the switch button is pressed downwards to slide, the lock tongue extends between the two elastic lock heads again and pushes the lock cylinder to slide in the shell, the two elastic lock heads slide into the shell and are folded mutually to lock the lock tongue, the lock cylinder is locked relative to the shell, the pressing plate tightly presses the mobile phone on the base, the mobile phone is convenient to operate, even if the road conditions of continuous jolt. Alternatively, the locking assembly may be a clamping structure of the clamping leg and the clamping groove.

In the vehicle-mounted wireless charging device, the lock ring is arranged in the shell, the lock cylinder is provided with the labyrinth lock channel, and the lock ring is connected in the labyrinth lock channel and can realize the locking and unlocking of the lock cylinder and the shell by sliding in the labyrinth lock channel. The lock ring and the labyrinth lock channel are conventional matching structures and are commonly used in a reading lamp switch in a vehicle, namely two positioning points are arranged in the labyrinth lock channel, the switch of the reading lamp is realized through different positioning points of the lock ring positioned in the labyrinth lock channel, the conventional use mode of the structure is overturned by the vehicle-mounted wireless charging device, namely, the lock cylinder and the shell are locked and unlocked through different positioning points of the lock ring positioned in the labyrinth lock channel, the operation is convenient, the unlocking of the lock cylinder and the shell can be realized only by pressing the switch button once, and the re-locking of the lock cylinder and the shell can be realized by pressing the switch button once. Meanwhile, the structure is reliable in locking and unlocking, stable compression of the mobile phone can be guaranteed, the mobile phone cannot deviate from a wireless charging area even in a continuously bumpy road condition, and charging reliability is improved.

In the vehicle-mounted wireless charging device, a second elastic piece which enables the lock cylinder to always have the tendency of sliding towards the outside of the shell is further arranged between the lock cylinder and the shell. Due to the arrangement of the second elastic piece, after the lock cylinder and the shell are unlocked, the lock cylinder can slide outside the shell under the action of the second elastic piece to explain the lock tongue, so that the whole structure can run more smoothly.

In the above vehicle-mounted wireless charging device, a guide groove is formed in the lock cylinder, one end of the guide groove penetrates through the bottom of the lock cylinder, a guide column is arranged at the bottom of the shell and penetrates through the guide groove in a sliding mode, the second elastic piece is a spring, the spring is sleeved on the guide column, and two ends of the spring are respectively abutted against the bottom of the guide groove and the bottom of the shell. The structural design of guide post and guide way for the lock core is more smooth and easy in the slip of casing, can not appear the jamming, guarantees the smooth and easy nature of locking and unblock operation.

In foretell on-vehicle wireless charging device, the base is including being the discoid base member and fixing the installation shell in the base member bottom, wireless charging module fixes in the bottom of base member and is located one side of installation shell, set up the mounting hole that is linked together with the inner chamber of installation shell on the base member, the mounting hole is located wireless charging district, set up on the cell-phone cushion with the hole of stepping down that the mounting hole is relative, shift knob sliding connection just in the installation shell the clamp plate can pass the mounting hole in proper order and step down the top that the hole slided to wireless charging district, the casing joint is in on the installation shell. Through foretell setting for the dismouting of structure is more convenient.

In the above vehicle-mounted wireless charging device, the switch button is further provided with a rack, the bottom of the mounting shell is provided with a through hole, the rack slides through the through hole, the mounting shell is further provided with a rotary damper, and the rotary damper is provided with a gear and the gear is meshed with the rack. Through rack and rotary damper's mutually supporting effect for shift knob is receiving the gliding in-process that makes progress of the elastic potential energy of elastic component one, and rotary damper can produce certain damping effect, makes shift knob can smooth-going upwards slide, can not produce the noise or shake.

In the above vehicle-mounted wireless charging device, both sides of the rack are provided with limiting convex strips extending along the length direction of the rack, the cross section of each limiting convex strip along the width direction is arc-shaped, and the two limiting convex strips are respectively attached to both side walls of the through hole or have gaps. The setting of spacing sand grip for the rack can not take place to rock at gliding in-process from top to bottom, and the stationarity is better, and the cross-section of spacing sand grip is the arc moreover, and is less again with the contact surface between the both sides wall of running through the mouth, can not take place the jamming.

In the above vehicle-mounted wireless charging device, one end of the rack penetrating through the through hole is further provided with a limiting bump, and the limiting bump can abut against the bottom of the mounting shell. The design of the limiting convex block plays a limiting role in the sliding stroke of the rack.

In foretell on-vehicle wireless charging device, shift knob still has spacing traveller, spacing traveller with the rack sets up side by side, the bottom of installation shell still has the through hole, spacing traveller slides and passes the through hole, elastic component is first to establish on spacing traveller for spring and cover, spacing traveller wears out the outer one end of through hole and still has the spacing dop that can lean on with the bottom counterbalance of installation shell. The structural design of spacing traveller can further play the effect of a direction to shift knob's upper and lower slip, guarantees gliding smooth and easy nature, and the design of spacing dop can form the effect of playing a injecing again to shift knob's whole slip simultaneously, avoids shift knob to break away from the base.

Compared with the prior art, the vehicle-mounted wireless charging device has the following advantages:

1. the cell-phone is compressed tightly fixed its mainly that the locking subassembly realizes shift knob and base locking, and relative motion can not take place for both even receive great external force, can not have and rock to even meet the road conditions of jolting in succession, the cell-phone can not deviate wireless charging area yet, has improved the reliability of charging.

2. The mobile phone rubber mat and the compensation rubber mat are arranged, so that the mobile phone has certain buffer force after being compressed, the mobile phone is not easy to press a ring even under larger pressing force, meanwhile, an elastic pretightening force is applied to the mobile phone equivalently, gaps can not exist between the mobile phone and the pressing plate and between the mobile phone and the base, and a larger friction resistance is formed in the horizontal direction, so that the mobile phone is positioned on an X, Y, Z shaft in an all-dimensional mode, the stability after being compressed can be better ensured, even if the mobile phone meets a continuously bumpy road condition, the mobile phone can not deviate from a wireless charging area, and the charging reliability is improved.

3. The mobile phone fixing device is suitable for fixing mobile phones of different sizes and has good universality.

4. The switch button receives the in-process that the elastic potential energy's of elastic component one effect slided upwards, and rotatory attenuator can produce certain damping effect for the smooth-going upwards slip of switch button can not produce the noise or shake.

Drawings

Fig. 1 is a perspective view of the vehicle-mounted wireless charging device.

Fig. 2 is an exploded view of the vehicle-mounted wireless charging device.

Fig. 3 is a cross-sectional view of the vehicle-mounted wireless charging apparatus.

Fig. 4 is an assembly view of the switch button and locking assembly.

Fig. 5 is a perspective view of the lock cylinder.

Fig. 6 is a perspective view of the housing.

In the figure, 1, a base; 1a, a substrate; 1a1, wireless charging zone; 1b, mounting a shell; 2. a wireless charging module; 3. a mobile phone rubber cushion; 4. a switch button; 4a, a pressing plate; 4b, a rack; 4b1, limit convex strips; 4c, limiting sliding columns; 4c1, a limit chuck; 5. a first elastic part; 6. a compensation rubber cushion; 7. a housing; 7a, a lock ring; 7b, a guide post; 8. a latch bolt; 9. a lock cylinder; 9a, an elastic lock head; 9b, locking a channel by a labyrinth; 9c, a guide groove; 10. a second elastic piece; 11. a rotary damper; 12. provided is a mobile phone.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 6, the vehicle-mounted wireless charging device includes a wireless charging module 2 and a base 1 having a wireless charging area 1a 1. The base 1 is including being square discoid base member 1a and installation shell 1b, and base member 1a inner chamber bottom surface is wireless charging district 1a1, and the bottom of base member 1a has a plurality of spliced pole one, and the side correspondence of wireless module 2 that charges has a plurality of connection lugs one, and wireless module 2 that charges passes through the fastener and connects the lug one and link firmly mutually with spliced pole one and with wireless charging district 1a1 relatively. The bottom of the base body 1a is further provided with a plurality of second connecting columns, a plurality of second connecting lugs are correspondingly arranged on the side wall of the mounting shell 1b, the mounting shell 1b penetrates through the second connecting lugs through fasteners to be fixedly connected with the second connecting columns, and the wireless charging module 2 is located on one side of the mounting shell 1 b. The wireless charging area 1a1 is paved with a mobile phone rubber mat 3 made of elastic material, and the wireless charging area 1a1 is also provided with a positioning mechanism for positioning the mobile phone 10.

Specifically, positioning mechanism is including the shift knob 4 that has clamp plate 4a, set up the mounting hole that is linked together with the inner chamber of installation shell 1b in the wireless district 1a1 that charges on base member 1a, set up the hole of stepping down relative with the mounting hole on the cell-phone cushion 3, shift knob 4 sliding connection installation shell 1b in and clamp plate 4a can pass the mounting hole in proper order and step down the hole and slide to the wireless top of charging district 1a1, be fixed with the compensation cushion 6 that adopts elastic material to make on the lower surface of clamp plate 4 a. Still be equipped with between shift knob 4 and the base 1 and make shift knob 4 have the elastic component 5 of the trend of upwards sliding all the time, still be equipped with between shift knob 4 and the base 1 and make the locking subassembly of both mutual location, and elastic component 5 is compressed when shift knob 4 and base 1 location.

The switch button 4 is further provided with a rack 4b, the bottom of the mounting shell 1b is provided with a through hole, the rack 4b slides through the through hole, and the mounting hole 1b is provided with a rotary damper 11 with a gear. The mounting groove has been on the lateral wall of installation shell 1b, the bottom of mounting groove set up with run through the intercommunication mouth that mouthful communicates, rotary damper 11 has the connecting plate, the both sides border of mounting groove has the joint, the connecting plate is by the joint chucking in the mounting groove, rotary damper 11's gear passes the intercommunication mouth and meshes with rack 4b mutually. The mutual cooperation of rack 4b and rotary damper 11 for shift knob 4 is receiving the effect of elastic potential energy of elastic component 5 gliding in-process upwards, and rotary damper 11 can produce certain damping effect, makes shift knob 4 can smooth-going upwards slide, can not produce the noise or shake.

Both sides of the rack 4b are provided with a limit convex strip 4b1 extending along the length direction of the rack 4b, the cross section of the limit convex strip 4b1 along the width direction is arc-shaped, and the two limit convex strips 4b1 are respectively attached to both side walls of the through hole or have gaps. The end of the rack 4b penetrating through the through hole is also provided with a limit lug which can be propped against the bottom of the mounting shell 1 b.

The switch button 4 is further provided with a limiting sliding column 4c, the limiting sliding column 4c and the rack 4b are arranged side by side, the bottom of the mounting shell 1b is further provided with a through hole, the limiting sliding column 4c penetrates through the through hole in a sliding mode, the first elastic part 5 is a spring and is sleeved on the limiting sliding column 4c, and one end, penetrating out of the through hole, of the limiting sliding column 4c is further provided with a limiting clamping head 4c1 capable of abutting against the bottom of the mounting shell 1 b.

Further say, the locking subassembly includes casing 7, spring bolt 8 and lock core 9, and casing 7 has the inner chamber, and casing 7's both sides have the joint groove, and the bottom of installation shell 1b has the installing port, and casing 7 installs in the installing port and the border joint of installing port is at the joint inslot. A side wall of the shell 7 is provided with a strip-shaped sliding groove, the lock cylinder 9 is provided with a sliding block, the lock cylinder 9 is connected in the shell 7 in a sliding manner, and the sliding block is connected in the corresponding strip-shaped sliding groove in a sliding manner. The shell 7 is internally provided with a lock ring 7a, the lock cylinder 9 is provided with a labyrinth lock channel 9b, the lock ring 7a is connected in the labyrinth lock channel 9b, and the lock and the unlock of the lock cylinder 9 and the shell 7 can be realized by sliding the lock ring 7a in the labyrinth lock channel 9 b. During operation, only one switch button 4 is pressed to unlock the lock cylinder 9 and the shell 7, and then one switch button 4 is pressed to lock the lock cylinder 9 and the shell 7 again. The spring bolt 8 is fixed on shift knob 4, has two elasticity tapered ends 9a on the lock core 9, and spring bolt 8 can stretch into between two elasticity tapered ends 9a, and can receive force elastic deformation and fold each other and lock spring bolt 8 when two elasticity tapered ends 9a of lock core 9 slide to casing 7 in and relative casing 7 locking, can open each other when the relative casing 7 unblock of lock core 9 and two elasticity tapered ends 9a slide to the casing 7 outside and realize the unblock to spring bolt 8. In addition, the bottom of the shell 7 is also provided with an exhaust hole, so that the lock cylinder 9 can slide smoothly.

And a second elastic part 10 which enables the lock core 9 to always have the tendency of sliding towards the outside of the shell 7 is arranged between the lock core 9 and the shell 7. The lock core 9 is internally provided with a guide groove 9c with one end penetrating through the bottom of the lock core 9, the bottom of the shell 7 is provided with a guide post 7b, and the guide post 7b is slidably arranged in the guide groove 9c in a penetrating way. In this embodiment, the second elastic member 10 is a spring, the spring is sleeved on the guide post, and two ends of the spring respectively abut against the bottom of the guide groove 9c and the bottom of the housing 7.

When the vehicle-mounted wireless charging device is required to charge the mobile phone 10, firstly, the switch button 4 is pressed downwards to push the lock cylinder 9 to slide downwards, the lock cylinder 9 and the shell 7 are unlocked through the action of the lock ring 7a and the labyrinth lock channel 9b, the elastic potential energy of the elastic piece I5 is released, the switch button 4 slides upwards to drive the lock cylinder 9 to slide upwards, the two elastic lock heads 9a of the lock cylinder 9 slide to the outside of the shell 7 and are mutually opened under the action of the elastic force of the lock cylinder 9 and the shell, the lock tongue 8 is unlocked, the switch button 4 can continuously slide upwards until the press plate 4a is positioned above the wireless charging area 1a1, then the mobile phone 10 is placed in the wireless charging area 1a1 and positioned below the press plate 4a, then the switch button 4 is pressed downwards to enable the switch button 4 to slide downwards, and the lock tongue 8 stretches into the two elastic lock heads 9a again and pushes the lock cylinder, two elastic lock heads 9a slide to the casing 7 in and fold each other and lock the spring bolt 8, lock core 9 locks with casing 7 again under the effect of catch 7a and labyrinth lock way 9b simultaneously, shift knob 4 is fixed, clamp plate 4a compresses tightly cell-phone 10 on base 1, both are rigid location, there is not rocking, and cell-phone cushion 3 and the elastic deformation of compensation cushion 6 make cell-phone 10 have certain cushion effect after being compressed tightly, be difficult for by the clamping ring, simultaneously again be equivalent to again to have exerted an elastic pretightening force to cell-phone 10, make cell-phone 10 after being compressed tightly stability better, thereby even meet the road conditions of jolting in succession, cell-phone 10 can not deviate wireless charging district 1a1 territory yet, the reliability of charging has been improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although 1, the base is used more herein; 1a, a substrate; 1a1, wireless charging zone; 1b, mounting a shell; 2. a wireless charging module; 3. a mobile phone rubber cushion; 4. a switch button; 4a, a pressing plate; 4b, a rack; 4b1, limit convex strips; 4c, limiting sliding columns; 4c1, a limit chuck; 5. a first elastic part; 6. a compensation rubber cushion; 7. a housing; 7a, a lock ring; 8. a latch bolt; 9. a lock cylinder; 9a, an elastic lock head; 9b, locking a channel by a labyrinth; 9c, a guide groove; 10. a second elastic piece; 11. a rotary damper; 12. cell phone, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. The utility model provides an on-vehicle wireless charging device, includes wireless charging module (2) and base (1) that has wireless charging district (1a1), wireless charging module (2) are fixed on base (1) and are relative with wireless charging district (1a1), still be equipped with the positioning mechanism who is used for fixing a position cell-phone (12) on wireless charging district (1a1), its characterized in that, wireless charging district (1a1) upper berth is equipped with cell-phone cushion (3) that elastic material made, positioning mechanism is including shift knob (4) that have clamp plate (4a), shift knob (4) sliding connection just on base (1) clamp plate (4a) can slide to the top in wireless charging district (1a1), still be equipped with the locking subassembly that can make both mutual locking between shift knob (4) and base (1).

2. The vehicle-mounted wireless charging device according to claim 1, wherein a compensation rubber pad (6) made of elastic material is fixed on the lower surface of the pressure plate (4 a).

3. The vehicle wireless charging device according to claim 1 or 2, wherein the latch assembly comprises a housing (7), a latch tongue (8) and a latch core (9), the shell (7) is connected on the base (1), the lock core (9) is provided with two elastic lock heads (9a), the lock tongue (8) is fixed on the switch button (4), the lock cylinder (9) is connected in the shell (7) in a sliding way, the lock tongue (8) can extend into the space between the two elastic lock heads (9a), and when the two elastic lock heads (9a) of the lock core (9) slide into the shell (7) and are locked relative to the shell (7), the two elastic lock heads can be mutually folded to lock the bolt (8), when the lock cylinder (9) is unlocked relative to the shell (7) and the two elastic lock heads (9a) slide out of the shell (7), the lock bolts (8) can be unlocked by mutually opening.

4. The vehicle-mounted wireless charging device according to claim 3, wherein the housing (7) is provided with a lock ring (7a), the lock cylinder (9) is provided with a labyrinth lock channel (9b), the lock ring (7a) is connected in the labyrinth lock channel (9b), and the lock and the unlock of the lock cylinder (9) and the housing (7) can be realized by sliding the lock ring (7a) in the labyrinth lock channel (9 b).

5. The vehicle-mounted wireless charging device according to claim 3, wherein a first elastic piece (5) enabling the switch button (4) to always have an upward sliding trend is further arranged between the switch button (4) and the base (1), the first elastic piece (5) is compressed when the switch button (4) and the base (1) are positioned, and a second elastic piece (10) enabling the lock cylinder (9) to always have a sliding trend towards the outside of the housing (7) is further arranged between the lock cylinder (9) and the housing (7).

6. The vehicle-mounted wireless charging device according to claim 5, wherein the base (1) comprises a base body (1a) in a disc shape and a mounting case (1b) fixed to the bottom of the base body (1a), the wireless charging module (2) is fixed at the bottom of the base body (1a) and is positioned at one side of the mounting shell (1b), the base body (1a) is provided with a mounting hole communicated with the inner cavity of the mounting shell (1b), the mounting hole is positioned in the wireless charging area (1a1), the mobile phone rubber mat (3) is provided with a yielding hole opposite to the mounting hole, shift knob (4) sliding connection just in installation shell (1b) clamp plate (4a) can pass the mounting hole in proper order and let the hole slide to the wireless top of charging district (1a1), casing (7) joint is in on installation shell (1 b).

7. The vehicle-mounted wireless charging device according to claim 6, wherein the switch button (4) is further provided with a rack (4b), the bottom of the mounting shell (1b) is provided with a through hole, the rack (4b) slides through the through hole, the mounting shell (1b) is further provided with a rotary damper (11), the rotary damper (11) is provided with a gear, and the gear is meshed with the rack (4 b).

8. The vehicle-mounted wireless charging device according to claim 7, wherein both sides of the rack (4b) are provided with limit ribs (4b1) extending along the length direction of the rack (4b), the cross section of the limit ribs (4b1) along the width direction is arc-shaped, and the two limit ribs (4b1) respectively abut against both side walls of the through hole or have gaps.

9. The vehicle-mounted wireless charging device according to claim 8, wherein one end of the rack (4b) penetrating through the through hole is further provided with a limiting bump, and the limiting bump can abut against the bottom of the mounting shell (1 b).

10. The vehicle-mounted wireless charging device according to claim 6, wherein the switch button (4) is further provided with a limiting sliding column (4c), the limiting sliding column (4c) is arranged side by side with the rack (4b), the bottom of the mounting shell (1b) is further provided with a through hole, the limiting sliding column (4c) slides through the through hole, the first elastic piece (5) is a spring and is sleeved on the limiting sliding column (4c), and one end, penetrating out of the through hole, of the limiting sliding column (4c) is further provided with a limiting clamping head (4c1) capable of abutting against the bottom of the mounting shell (1 b).

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