CN220107665U - Novel gallium nitride multi-port quick wireless charger - Google Patents

Abstract

The utility model discloses a novel gallium nitride multi-port quick wireless charger, which relates to the field of gallium nitride chargers and comprises a gallium nitride charging head, a charging wire and a wireless charger arranged on the charging wire, wherein a clamping ring is fixedly arranged on the gallium nitride charging head, a fixed plate is fixedly arranged on the clamping ring, two limiting blocks are fixedly arranged on the fixed plate, sliding plates are movably arranged in the limiting blocks on two sides, rotating plates are fixedly arranged on the two sliding plates, moving plates are fixedly arranged on one sides, away from each other, of the two sliding plates, and clamping teeth are fixedly arranged on the two moving plates.

Description

Novel gallium nitride multi-port quick wireless charger

Technical Field

The utility model relates to a gallium nitride charger technical field especially relates to a novel quick wireless charger of many mouthfuls of gallium nitride.

Background

The wireless charger is a charger which is connected to terminal equipment to be charged without a traditional charging power line, adopts the latest wireless charging technology, transmits electric energy by using an alternating magnetic field generated between coils, and an inductive coupling technology becomes a bridge for connecting a charging base station and the equipment, so that the traditional charging power is limited, the wired charger is charged through a mobile phone socket, higher power can be used, and the gallium nitride charger is frequently applied due to high charging power and small heating.

In the prior art, when using the charger, generally all directly insert on the socket, but the gallium nitride charging head is heavier than general charger, and the gallium nitride charging head can lead to the socket unable to fix, in case pull the cable down or by touching just fall easily for the charging stops, and the while is frequent drops, makes the gallium nitride charger also can receive the collision damage for a long time, influences its life, consequently needs a novel gallium nitride multiport quick wireless charger to satisfy people's demand.

Disclosure of Invention

The utility model aims to provide a novel gallium nitride multi-port quick wireless charger, which solves the problems that the gallium nitride charger has larger and heavier volume than a common charger head when being used in the background technology, and can not be well fixed to cause falling and easy breaking.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a novel quick wireless charger of many mouthfuls of gallium nitride, includes gallium nitride charging head and charging wire and installs the wireless charger on the charging wire, the overhead fixed mounting that charges of gallium nitride has the rand, fixed mounting has the fixed plate on the rand, fixed mounting has two stopper on the fixed plate, remove and install the fly leaf in the stopper of both sides, equal fixed mounting has the rotor plate on two fly leaf, equal fixed mounting has the movable plate on one side that two fly leaves each other, equal fixed mounting has the latch on two movable plates, when using gallium nitride charging head, can be through adjusting the distance of two movable plates on gallium nitride charging head, at first remove the rotor plate, two rotor plates drive two fly leaf and have been restricted the activity by the stopper, the fly leaf can only horizontal migration, two fly leaf drive two movable plates.

Preferably, the T-shaped groove is formed in the fixed plate, a plurality of clamping grooves are formed in the T-shaped groove, the movable rods are movably arranged on the clamping grooves, the two sliding plates are rotatably provided with the rotating plates, the two rotating plates are movably sleeved on the movable rods, the fixed plates can be pulled out, and the positions of the T-shaped grooves are limited by inserting the movable rods into the clamping grooves at corresponding positions.

Preferably, the T-shaped block is slidably arranged in the T-shaped groove, a limiting hole is formed in the T-shaped block, the moving rod is movably arranged in the limiting hole, the T-shaped block can be moved by pulling the moving rod, and the T-shaped block can be fixed on the fixed plate by inserting the moving rod.

Preferably, the fixed plate is provided with a limiting hole, a trigger rod is movably arranged in the limiting hole, the trigger rod is fixedly arranged on the T-shaped block, and when the trigger rod moves, the T-shaped block is pushed to move in the T-shaped groove by moving the trigger rod in the limiting hole.

Preferably, the rotating grooves are formed in the two rotating plates, the rotating holes are formed in the two rotating plates, the moving rod penetrates through the two rotating holes located on the same straight line once, the rotating rod is installed in the corresponding other two rotating holes in a rotating mode, and when the moving rod moves, the rotating plates are driven to rotate on the rotating holes, and the rotating angle is limited through the rotating grooves.

Preferably, the two sliding plates are provided with the cutting grooves, the two rotating rods are respectively and fixedly arranged in the two cutting grooves, one side, close to each other, of each sliding plate is fixedly provided with the same spring, when the rotating plates rotate, the two sliding plates are pushed to move towards two sides through the rotating rods, and when the two sliding plates move, the springs are pulled, so that the springs can help the sliding plates to reset.

Preferably, the limiting blocks are provided with limiting grooves, the two sliding plates are slidably mounted in the limiting grooves, and when the sliding plates move, the sliding plates are limited to move through the limiting grooves and can only move in the limiting grooves.

The beneficial effects of the utility model are as follows:

according to the utility model, through the arrangement of the structures such as the movable plate, the sliding plate and the like, the two movable plates can tightly clamp the side edge of the socket, so that the gallium nitride charging head can be fixed on the socket, the gallium nitride charging head can be stably fixed on the socket and pulled back and forth, the gallium nitride charging head is not easy to fall off, the possibility of falling is reduced, the normal use is not influenced, and the service life of the gallium nitride charging head is prolonged.

According to the utility model, the T-shaped block can drive the two rotating plates to move by moving the trigger rod, and the two rotating plates drive the moving plates to move by the two sliding plates, so that the two moving plates can synchronously move, the purpose that the moving plates can be clamped or loosened by only moving the trigger rod is realized, and the T-shaped block is convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of a novel gallium nitride multi-port fast wireless charger according to the present utility model;

fig. 2 is a schematic diagram of a connection structure between a gallium nitride charging head and a motion plate of a novel gallium nitride multi-port fast wireless charger according to the present utility model;

fig. 3 is a schematic diagram of a partial structure of a novel gallium nitride multi-port fast wireless charger according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a novel GaN multi-port fast wireless charger according to the present utility model;

fig. 5 is a schematic diagram of a partial enlarged structure of a portion a of fig. 5 of a novel gallium nitride multi-port fast wireless charger according to the present utility model;

fig. 6 is a schematic diagram of the connection structure of the charging wire, the collar, the fixing plate and the like of the novel gallium nitride multi-port rapid wireless charger.

In the figure: 1. a gallium nitride charging head; 2. a wireless charger; 3. a charging wire; 4. a collar; 5. a fixing plate; 6. a moving plate; 7. a limiting block; 8. a sliding plate; 9. a rotating plate; 10. rotating the slot; 11. latch teeth; 12. a trigger lever; 13. a spring; 14. a limit groove; 15. a rotating lever; 16. a T-shaped groove; 17. grooving; 18. a limiting hole; 19. a clamping groove; 20. a rotation hole; 21. a T-shaped block; 22. limiting the aperture; 23. and (3) moving the rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, a novel gallium nitride multi-port quick wireless charger comprises a gallium nitride charging head 1, a charging wire 3 and a wireless charger 2 arranged on the charging wire 3, wherein a clamping ring 4 is fixedly arranged on the gallium nitride charging head 1, a fixed plate 5 is fixedly arranged on the clamping ring 4, two limiting blocks 7 are fixedly arranged on the fixed plate 5, sliding plates 8 are movably arranged on the limiting blocks 7 on two sides, rotating plates 9 are fixedly arranged on the two sliding plates 8, clamping teeth 11 are fixedly arranged on the two moving plates 6 on one sides, which are far away from each other, when the gallium nitride charging head 1 is used, the rotating plates 9 are firstly moved, the two sliding plates 8 are driven to move by the two rotating plates 9, the sliding plates 8 are limited by the limiting blocks 7, the sliding plates 8 can only horizontally move, and the two sliding plates 8 drive the two moving plates 6.

Referring to fig. 1-4, in the present utility model, a T-shaped slot 16 is formed in a fixed plate 5, a plurality of clamping slots 19 are formed in the T-shaped slot 16, a moving rod 23 is movably mounted on the clamping slots 19, two rotating plates 9 are rotatably mounted on two sliding plates 8, the two rotating plates 9 are movably sleeved on the moving rod 23, the fixed plate 5 and the moving rod 23 can be pulled out and inserted into the clamping slots 19 at corresponding positions to limit the positions of the T-shaped slot 16.

Referring to fig. 1 to 4, in the present utility model, a T-shaped block 21 is slidably installed in a T-shaped groove 16, a limiting hole 22 is formed in the T-shaped block 21, a moving rod 23 is movably installed in the limiting hole 22, the moving rod 23 is pulled out to move the T-shaped block 21, and the moving rod 23 is inserted to fix the T-shaped block 21 on a fixing plate 5.

Referring to fig. 1 to 4, in the present utility model, a limiting hole 18 is formed in a fixing plate 5, a trigger rod 12 is mounted in the limiting hole 18, the trigger rod 12 is fixedly mounted on a T-shaped block 21, and when the trigger rod 12 moves, the T-shaped block 21 is pushed to move in a T-shaped groove 16 by the movement of the trigger rod 12 in the limiting hole 18.

Referring to fig. 1 to 4, in the present utility model, the two rotating plates 9 are provided with the rotating slots 10, the two rotating plates 9 are provided with the rotating holes 20, the moving rod 23 penetrates through the two rotating holes 20 on the same straight line at a time, the corresponding other two rotating holes 20 are provided with the rotating rods 15 in a rotating manner, and when the moving rod 23 moves, the rotating plates 9 are driven to rotate on the rotating holes 20, and the rotating angle is limited by the rotating slots 10.

Referring to fig. 1 to 4, in the present utility model, the two sliding plates 8 are provided with the slots 17, the two rotating rods 15 are respectively and fixedly installed in the two slots 17, one side of the two sliding plates 8, which is close to each other, is fixedly installed with the same spring 13, when the rotating plate 9 rotates, the two sliding plates 8 are pushed to move to both sides by the rotating rods 15, and when the two sliding plates 8 move, the spring 13 is pulled, so that the spring 13 can help the sliding plates 8 to reset.

Referring to fig. 1 to 4, in the present utility model, two limiting blocks 7 are provided with limiting grooves 14, and two sliding plates 8 are slidably mounted in the limiting grooves 14, and when the sliding plates 8 move, the sliding plates 8 are limited to move through the limiting grooves 14 and can only move in the limiting grooves 14.

The working principle of the utility model is as follows:

when the gallium nitride charging head 1 is inserted, firstly, the moving rod 23 is pulled, the T-shaped block 21 can be released from limitation, the trigger rod 12 can drive the T-shaped block 21 to start moving, the T-shaped block 21 can only slide in the T-shaped groove 16, the T-shaped block 21 drives the moving rod 23 to move, the moving rod 23 drives the rotating plate 9 to move, the two rotating plates 9 drive the two sliding plates 8 to move, the two sliding plates 8 are limited by the two limiting blocks 7 to move, the two sliding plates 8 can only move horizontally, the two sliding plates 8 can drive the moving plate 6 to move, the moving plate 6 drives the latch 11 to move, the latch 11 can be pulled to firmly clamp the socket by the sliding plate 8, so that the gallium nitride charging head 1 can be more firmly clamped during charging, normal charging work can be ensured, and meanwhile, the problem that the gallium nitride charging head 1 detects falling to be finally damaged can be avoided.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a novel quick wireless charger of gallium nitride multiport, includes gallium nitride charging head (1) and charging wire (3) and installs wireless charger (2) on charging wire (3), its characterized in that: the gallium nitride charging head is characterized in that a clamping ring (4) is fixedly arranged on the gallium nitride charging head (1), a fixed plate (5) is fixedly arranged on the clamping ring (4), two limiting blocks (7) are fixedly arranged on the fixed plate (5), sliding plates (8) are movably arranged in the limiting blocks (7) on two sides, rotating plates (9) are fixedly arranged on the two sliding plates (8), moving plates (6) are fixedly arranged on one sides, away from each other, of the two sliding plates (8), and clamping teeth (11) are fixedly arranged on the two moving plates (6).

2. The novel gallium nitride multi-port rapid wireless charger according to claim 1, wherein: t-shaped grooves (16) are formed in the fixed plate (5), a plurality of clamping grooves (19) are formed in the T-shaped grooves (16), moving rods (23) are movably arranged on the clamping grooves (19), rotating plates (9) are rotatably arranged on the two sliding plates (8), and the two rotating plates (9) are movably sleeved on the moving rods (23).

3. The novel gallium nitride multi-port rapid wireless charger according to claim 2, wherein: t-shaped blocks (21) are slidably mounted in the T-shaped grooves (16), limiting holes (22) are formed in the T-shaped blocks (21), and moving rods (23) are movably mounted in the limiting holes (22).

4. The novel gallium nitride multi-port rapid wireless charger according to claim 1, wherein: the fixed plate (5) is provided with a limiting hole (18), a trigger rod (12) is arranged in the limiting hole (18), and the trigger rod (12) is fixedly arranged on the T-shaped block (21).

5. The novel gallium nitride multi-port rapid wireless charger according to claim 2, wherein: the two rotating plates (9) are provided with rotating grooves (10), the two rotating plates (9) are provided with rotating holes (20), the moving rod (23) penetrates through the two rotating holes (20) positioned on the same straight line at one time, and the corresponding other two rotating holes (20) are internally provided with rotating rods (15) in a rotating mode.

6. The novel gallium nitride multi-port rapid wireless charger according to claim 5, wherein: the two sliding plates (8) are provided with cutting grooves (17), the two rotating rods (15) are respectively and fixedly arranged in the two cutting grooves (17), and one side, close to each other, of the two sliding plates (8) is fixedly provided with the same spring (13).

7. The novel gallium nitride multi-port rapid wireless charger according to claim 1, wherein: the two limiting blocks (7) are provided with limiting grooves (14), and the two sliding plates (8) are slidably arranged in the limiting grooves (14).