CN216794659U - Multifunctional general wireless charging receiving device - Google Patents

Abstract

The utility model discloses a multifunctional universal wireless charging receiving device, which relates to the technical field of wireless charging and comprises a wireless charging device shell and a magnetic induction charging coil, wherein a servo motor is fixedly connected to the inner wall of the right side of the wireless charging device shell, an output shaft of the servo motor is fixedly connected with a driving bevel gear, the driving bevel gear is meshed with a driven bevel gear, and the driven bevel gear is fixedly connected to the right end of a second bidirectional threaded rod. According to the utility model, the left arc-shaped push plate and the right arc-shaped push plate synchronously push the mobile equipment to the upper end position of the magnetic induction cooling fin and fixedly clamp the mobile equipment, and when charging is carried out, the left arc-shaped push plate and the right arc-shaped push plate can be automatically and synchronously moved according to different sizes of the mobile equipment to push the mobile equipment to the upper part of the magnetic induction cooling fin for fixing and charging, so that the compatibility is better, and the requirements of fixing and charging the mobile equipment with different sizes can be met.

Description

Multifunctional general wireless charging receiving device

Technical Field

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

Background

The wireless charging technology is derived from a wireless electric energy transmission technology, the principle of the wireless charging technology is that energy is transmitted between a charger and a power utilization device through the formation of a magnetic field, the wireless charging technology mainly comprises two main types of low-power wireless charging and high-power wireless charging, the low-power wireless charging technology usually adopts an electromagnetic induction type, the high-power wireless charging technology (such as an electric vehicle storage battery or an electric vehicle storage battery) mostly adopts a resonance type charging technology, and energy is transmitted to the power utilization device through power supply equipment.

The wireless charging of low-power electrical apparatus (smart mobile phone and flat board) is the present application comparatively common, place the mobile device when using on the wireless receiving arrangement that charges and simply fix the back alright with make magnetic induction charging coil be close to the mobile device and charge, but the wireless receiving arrangement that charges of the electrical apparatus that can wirelessly charge's of current specification is many fixed, and compatibility is not good, can't satisfy the demand of fixing and charging the mobile device of not unidimensional.

Therefore, there is a need to provide a multifunctional universal wireless charging receiver to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims to: the utility model provides a multifunctional universal wireless charging receiving device, which aims to solve the problems that the existing wireless charging receiving device of mobile equipment is poor in compatibility and cannot meet the requirements of fixing and charging the mobile equipment with different sizes.

(II) technical scheme

The utility model specifically adopts the following technical scheme for realizing the purpose:

a multifunctional universal wireless charging receiving device comprises a wireless charging device shell and a magnetic induction charging coil, wherein a servo motor is fixedly connected to the inner wall of the right side of the wireless charging device shell, an output shaft of the servo motor is fixedly connected with a driving bevel gear, the driving bevel gear is mutually meshed with a driven bevel gear, the driven bevel gear is fixedly connected to the right end of a second bidirectional threaded rod, one end, away from the driven bevel gear, of the second bidirectional threaded rod is fixedly connected with a first driving belt wheel, the first driving belt wheel is connected with a second driving belt wheel through a belt, the second driving belt wheel is fixedly connected to the left end of a first bidirectional threaded rod, the left end of the first bidirectional threaded rod is in threaded connection with a first left threaded block, the right end of the first bidirectional threaded rod is in threaded connection with a first right threaded block, the left end of the second bidirectional threaded rod is in threaded connection with a second left threaded block, the right-hand member threaded connection of second bidirectional threaded rod has the right screw thread piece of second, the side surface fixedly connected with left arc push pedal of left screw thread piece of first left screw thread piece and second, the side surface fixedly connected with right arc push pedal of right screw thread piece of first right screw thread piece and second right screw thread piece, the rectangle guide way has been seted up to the upper end surface of wireless charging device shell, and first left screw thread piece, first right screw thread piece, second left screw thread piece and second right screw thread piece are sliding connection respectively in the inside of rectangle guide way.

Further, two fixedly connected with metal pole between the left side arc push pedal, two fixedly connected with metal pole between the right side arc push pedal, it has pressure sensor to inlay in the preceding terminal surface of left side arc push pedal and right side arc push pedal.

Further, the front end left side of wireless charging device shell is provided with intelligent speech signal receiver, the front end right side of wireless charging device shell is provided with the charged state pilot lamp.

Furthermore, the left side surface of the wireless charging device shell is provided with a control switch and a plug interface, and four corners of the bottom of the wireless charging device shell are provided with lower anti-skid table-boards.

Further, a CPU controller is arranged inside the shell of the wireless charging device, the CPU controller is electrically connected with the intelligent voice signal receiver, and the servo motor is electrically connected with the CPU controller.

Furthermore, the center of the upper surface of the wireless charging device shell is provided with a cavity groove for placing the magnetic induction charging coil, the upper surface of the cavity groove is covered with a magnetic induction radiating fin, and the surface of the magnetic induction radiating fin is provided with a radiating hole.

Further, the inner side surface of the wireless charging device shell is provided with a guide sleeve, and two ends of the first bidirectional threaded rod and the second bidirectional threaded rod are rotatably connected inside the guide sleeve.

(III) advantageous effects

The utility model has the following beneficial effects:

1. according to the utility model, the left arc-shaped push plate and the right arc-shaped push plate synchronously push the mobile equipment to the upper end position of the magnetic induction cooling fin and fixedly clamp the mobile equipment, then the magnetic induction charging coil generates magnetism after being electrified to charge the mobile equipment placed above the magnetic induction cooling fin, and the left arc-shaped push plate and the right arc-shaped push plate can be automatically and synchronously moved according to different sizes of the mobile equipment to push the mobile equipment above the magnetic induction cooling fin to be fixed and charged during charging, so that the compatibility is better, and the requirements of fixing and charging the mobile equipment with different sizes can be met.

2. According to the utility model, an intelligent voice signal receiver sends a 'start charging' instruction to a wireless charging signal receiving device, a CPU controller starts to send an instruction to a servo motor after receiving an electric signal, and then a first bidirectional threaded rod and a second bidirectional threaded rod start to rotate synchronously, so that a left arc-shaped push plate and a right arc-shaped push plate start to move synchronously towards the middle of a shell of the wireless charging device.

3. According to the utility model, the four guide sleeves are arranged on the inner side surface of the shell of the wireless charging device, so that the first bidirectional threaded rod and the second bidirectional threaded rod can flexibly rotate in the guide sleeves, the rotation of the first bidirectional threaded rod and the second bidirectional threaded rod is supported and guided, the rotation of the first bidirectional threaded rod and the second bidirectional threaded rod is facilitated, and the rotating wear of the first bidirectional threaded rod and the second bidirectional threaded rod is smaller.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a top view configuration of the present invention;

fig. 3 is a schematic diagram of the internal structure of the housing of the wireless charging device according to the present invention;

FIG. 4 is a schematic view of a right curved push plate connection structure according to the present invention;

fig. 5 is a schematic diagram of a side view structure of the present invention.

Reference numerals: 1. a wireless charging device housing; 2. a magnetic induction charging coil; 3. a servo motor; 4. a drive bevel gear; 5. a driven bevel gear; 6. a second bidirectional threaded rod; 7. a first drive pulley; 8. a second drive pulley; 9. a first bidirectional threaded rod; 10. a first left thread block; 11. a first right thread block; 12. a second left thread block; 13. a second right thread block; 14. a left arc-shaped push plate; 15. a right arc-shaped push plate; 16. a rectangular guide groove; 17. a metal rod; 18. a pressure sensor; 19. an intelligent voice signal receiver; 20. a charge status indicator light; 21. a control switch; 22. a plug interface; 23. a lower anti-slip table top; 24. a CPU controller; 25. magnetic induction heat sink.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-5, a multifunctional universal wireless charging receiving device comprises a wireless charging device housing 1 and a magnetic induction charging coil 2, wherein a cavity groove for placing the magnetic induction charging coil 2 is formed in the center of the upper surface of the wireless charging device housing 1, a magnetic induction cooling fin 25 is covered on the upper surface of the cavity groove, a cooling hole is formed in the surface of the magnetic induction cooling fin 25, a control switch 21 and a plug interface 22 are arranged on the left side surface of the wireless charging device housing 1, lower anti-skid table boards 23 are arranged at four corners of the bottom of the wireless charging device housing 1, a servo motor 3 is fixedly connected to the inner wall of the right side of the wireless charging device housing 1, an output shaft of the servo motor 3 is fixedly connected with a driving bevel gear 4, the driving bevel gear 4 is mutually engaged with a driven bevel gear 5, the driven bevel gear 5 is fixedly connected to the right end of a second bidirectional threaded rod 6, one end of the second bidirectional threaded rod 6, far away from the driven bevel gear 5, is fixedly connected with a first driving pulley 7, the first driving belt wheel 7 is in belt connection with the second driving belt wheel 8, the second driving belt wheel 8 is fixedly connected with the left end of the first bidirectional threaded rod 9, the left end of the first bidirectional threaded rod 9 is in threaded connection with a first left thread block 10, the right end of the first bidirectional threaded rod 9 is in threaded connection with a first right thread block 11, the left end of the second bidirectional threaded rod 6 is in threaded connection with a second left thread block 12, the right end of the second bidirectional threaded rod 6 is in threaded connection with a second right thread block 13, the side surfaces of the first left thread block 10 and the second left thread block 12 are fixedly connected with a left arc-shaped push plate 14, the side surfaces of the first right thread block 11 and the second right thread block 13 are fixedly connected with a right arc-shaped push plate 15, the upper end surface of the wireless charging device shell 1 is provided with a rectangular guide groove 16, the first left thread block 10 and the first right thread block 11, the second left screw block 12 and the second right screw block 13 are slidably coupled inside the rectangular guide grooves 16, respectively.

In this embodiment, when the user places the mobile device on the upper end of the wireless charging device housing 1, the servo motor 3 drives the driving bevel gear 4 to start rotating, the driving bevel gear 4 drives the driven bevel gear 5 to start rotating, the driven bevel gear 5 drives the second bidirectional threaded rod 6 to start rotating, the second bidirectional threaded rod 6 drives the second driving pulley 8 to rotate, the second driving pulley 8 drives the first driving pulley 7 to start rotating, the first driving pulley 7 drives the first bidirectional threaded rod 9 to rotate, so that the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 start rotating synchronously, so that the first left thread block 10 and the second left thread block 12 move towards the middle, the second right thread block 13 and the second left thread block 12 move towards the middle, the first left thread block 10 and the second left thread block 12 drive the left arc-shaped push plate 14 to move towards the middle, the second right thread block 13 and the second left thread block 12 drive the right arc-shaped push plate 15 to move towards the middle, left side arc push pedal 14 and right arc push pedal 15 promote the mobile device in step to the upper end position of magnetic induction fin 25 and fix the centre gripping to the mobile device, then magnetic induction charging coil 2 produces magnetism after getting electric and charges to the mobile device of placing in magnetic induction fin 25 top, can promote the mobile device to magnetic induction fin 25 top according to the different automatic synchronization of size of mobile device with right arc push pedal 15 and fix and charge when charging, it is better to be compatible, can satisfy to fix and charge to the mobile device of unidimensional.

Example 2

Referring to fig. 1-4, the present embodiment is further optimized based on embodiment 1, specifically, a metal rod 17 is fixedly connected between the two left arc-shaped push plates 14, a metal rod 17 is fixedly connected between the two right arc-shaped push plates 15, and pressure sensors 18 are embedded in the front end surfaces of the left arc-shaped push plates 14 and the right arc-shaped push plates 15.

Specifically, the intelligent voice signal receiver 19 is arranged on the left side of the front end of the wireless charging device shell 1, and the charging state indicator lamp 20 is arranged on the right side of the front end of the wireless charging device shell 1.

Specifically, the inside of the wireless charging device housing 1 is provided with a CPU controller 24, the CPU controller 24 is electrically connected with the intelligent voice signal receiver 19, and the servo motor 3 is electrically connected with the CPU controller 24.

In this embodiment, the intelligent voice signal receiver 19 sends a "start charging" instruction to the wireless charging signal receiving device, so that the CPU controller 24 starts sending an instruction to the servo motor 3 after receiving the electric signal, and then the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 start to rotate synchronously, and then the left arc-shaped push plate 14 and the right arc-shaped push plate 15 start to move synchronously to the middle of the wireless charging device shell 1, by gradually increasing the pressure detected at the pressure sensor 18 after the mobile device comes into contact with the pressure sensor 18, when the pressure detected by the pressure sensor 18 reaches 0.5 newton, the servo motor 3 stops rotating, so that the left arc-shaped push plate 14 and the right arc-shaped push plate 15 fix the mobile device well, and the situation that the surface of the mobile device is fractured due to the fact that the pressure of the left arc-shaped push plate 14 and the pressure of the right arc-shaped push plate 15 on the mobile device are large is avoided.

Example 3

Referring to fig. 3, the present embodiment is optimized based on the embodiment 1 or 2, specifically, a guide sleeve is disposed on an inner side surface of the wireless charging device housing 1, and two ends of the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 are rotatably connected inside the guide sleeve.

In this embodiment, the four guide sleeves are arranged on the inner side surface of the wireless charging device housing 1, so that the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 flexibly rotate inside the guide sleeves, the rotation of the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 is supported and guided, the rotation of the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 is facilitated, and the rotating wear of the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 is smaller.

In summary, the following steps: in the utility model, when a user places a mobile device on the upper end of a wireless charging device shell 1, a servo motor 3 drives a driving bevel gear 4 to start rotating, the driving bevel gear 4 drives a driven bevel gear 5 to start rotating, the driven bevel gear 5 drives a second bidirectional threaded rod 6 to start rotating, the second bidirectional threaded rod 6 drives a second driving belt pulley 8 to rotate, the second driving belt pulley 8 drives a first driving belt pulley 7 to start rotating, the first driving belt pulley 7 drives a first bidirectional threaded rod 9 to rotate, so that the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 start rotating synchronously, a first left thread block 10 and a second left thread block 12 move towards the middle, a second right thread block 13 and a second left thread block 12 move towards the middle, the first left thread block 10 and the second left thread block 12 drive a left arc-shaped push plate 14 to move towards the middle, the second right thread block 13 and the second left thread block 12 drive a right arc-shaped push plate 15 to move towards the middle, the left arc-shaped push plate 14 and the right arc-shaped push plate 15 synchronously push the mobile equipment to the upper end position of the magnetic induction radiating fin 25 and fixedly clamp the mobile equipment, then the magnetic induction charging coil 2 generates magnetism after being electrified to charge the mobile equipment placed above the magnetic induction radiating fin 25, the left arc-shaped push plate 14 and the right arc-shaped push plate 15 can be automatically and synchronously moved according to different sizes of the mobile equipment during charging to push the mobile equipment to the upper side of the magnetic induction radiating fin 25 for fixing and charging, the compatibility is better, the mobile equipment with different sizes can be fixed and charged, an instruction of 'starting charging' is sent to the wireless charging signal receiving device through the intelligent voice signal receiver 19, then the CPU controller 24 starts sending an instruction to the servo motor 3 after receiving an electric signal, and then the first bidirectional threaded rod 9 and the second bidirectional threaded rod 6 synchronously start to rotate, and then left arc push pedal 14 and right arc push pedal 15 begin to remove to the centre of wireless charging device shell 1 in step, through after mobile device and pressure sensor 18 contact, the last pressure that detects of pressure sensor 18 increases gradually, after the pressure that pressure sensor 18 detected reached 0.5 newton, servo motor 3 stall, then left arc push pedal 14 and right arc push pedal 15 are fixed intact with the mobile device, left arc push pedal 14 and right arc push pedal 15 have been avoided great to the pressure of mobile device, cause the surface of mobile device to be fractured.

The present invention is not limited to the above embodiments, and the scope of the present invention is defined by the appended claims, and all structural changes that can be made by applying the contents of the specification and drawings of the present invention are intended to be embraced therein.

Claims (7)

1. The utility model provides a multi-functional general wireless receiving arrangement that charges, includes wireless charging arrangement shell (1) and magnetic induction charging coil (2), its characterized in that: the right inner wall of the wireless charging device shell (1) is fixedly connected with a servo motor (3), an output shaft of the servo motor (3) is fixedly connected with a driving bevel gear (4), the driving bevel gear (4) is meshed with a driven bevel gear (5), the driven bevel gear (5) is fixedly connected with the right end of a second bidirectional threaded rod (6), one end, far away from the driven bevel gear (5), of the second bidirectional threaded rod (6) is fixedly connected with a first driving belt wheel (7), the first driving belt wheel (7) is in belt connection with a second driving belt wheel (8), the second driving belt wheel (8) is fixedly connected with the left end of a first bidirectional threaded rod (9), the left end of the first bidirectional threaded rod (9) is in threaded connection with a first left thread block (10), and the right end of the first bidirectional threaded rod (9) is in threaded connection with a first right thread block (11), the left end of second double-direction threaded rod (6) threaded connection has second left screw thread piece (12), the right-hand member threaded connection of second double-direction threaded rod (6) has second right screw thread piece (13), the side surface fixedly connected with left arc push pedal (14) of first left screw thread piece (10) and second left screw thread piece (12), the side surface fixedly connected with right arc push pedal (15) of first right screw thread piece (11) and second right screw thread piece (13), rectangle guide way (16) have been seted up to the upper end surface of wireless charging device shell (1), and first left screw thread piece (10), first right screw thread piece (11), second left screw thread piece (12) and second right screw thread piece (13) are sliding connection respectively in the inside of rectangle guide way (16).

2. The multifunctional universal wireless charging receiving device according to claim 1, wherein: two fixedly connected with metal pole (17) between left side arc push pedal (14), two fixedly connected with metal pole (17) between right side arc push pedal (15), it has pressure sensor (18) to inlay in the preceding terminal surface of left side arc push pedal (14) and right side arc push pedal (15).

3. The multifunctional universal wireless charging receiving device according to claim 1, wherein: the intelligent voice signal receiver (19) is arranged on the left side of the front end of the wireless charging device shell (1), and the charging state indicator lamp (20) is arranged on the right side of the front end of the wireless charging device shell (1).

4. The multifunctional universal wireless charging receiving device according to claim 1, wherein: the left side surface of wireless charging device shell (1) is provided with control switch (21) and plug interface (22), and the bottom four corners of wireless charging device shell (1) is provided with down anti-skidding mesa (23).

5. The multifunctional universal wireless charging receiving device according to claim 1, wherein: the wireless charging device is characterized in that a CPU controller (24) is arranged inside the wireless charging device shell (1), the CPU controller (24) is electrically connected with the intelligent voice signal receiver (19), and the servo motor (3) is electrically connected with the CPU controller (24).

6. The multifunctional universal wireless charging receiving device according to claim 1, wherein: the wireless charging device is characterized in that a cavity groove for containing the magnetic induction charging coil (2) is formed in the center of the upper surface of the shell (1) of the wireless charging device, a magnetic induction cooling fin (25) covers the upper surface of the cavity groove, and a cooling hole is formed in the surface of the magnetic induction cooling fin (25).

7. The multifunctional universal wireless charging receiving device according to claim 1, wherein: the inner side surface of the wireless charging device shell (1) is provided with a guide sleeve, and the two ends of the first bidirectional threaded rod (9) and the second bidirectional threaded rod (6) are rotatably connected inside the guide sleeve.

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