CN219874311U - Ultrathin charger - Google Patents

Abstract

The utility model relates to the technical field of chargers, in particular to an ultrathin charger, which comprises a charger body and a plug, wherein the plug is arranged on the charger body, and a cohesion mechanism is arranged on the charger body and is used for realizing the fixation between the charger body and a power supply socket. The beneficial effects of the utility model are as follows: the problem that the plug of the charger is not firm when the plug of the charger is inserted into the socket is solved, the situation that charging is influenced due to loosening of the plug of the ultrathin charger is reduced, and the charging stability of the ultrathin charger is improved.

Description

Ultrathin charger

Technical Field

The utility model relates to the technical field of chargers, in particular to an ultrathin charger.

Background

The charger is widely used in daily life as a charging device for charging electronic devices such as mobile phones and tablet computers.

Currently, when a conventional charger is in use, a user inserts a charger plug into a socket, and then inserts an electronic device into the charger through a charging wire to charge.

The prior art solution described above has the following drawbacks: when the charger plug is inserted into the socket, the situation that the plug is not firm exists, and poor contact can occur to the charger plug, so that the charging effect is poor, and therefore, there is room for improvement.

Disclosure of Invention

In order to solve the problem that a charger plug is not firmly inserted into a socket, the utility model provides an ultrathin charger.

The utility model provides an ultrathin charger which adopts the following technical scheme:

the utility model provides an ultra-thin charger, includes charger body and plug, the plug install in on the charger body, be provided with the mechanism of cohesion on the charger body, the mechanism of cohesion is used for realizing fixed between charger body and the power supply socket.

Through adopting above-mentioned technical scheme, when the plug of ultra-thin charger inserts power supply socket and charges for electronic equipment, the cohesion mechanism can realize the fixing between charger body and the power supply socket, reduces the condition emergence that influences the charging because the plug of ultra-thin charger is not hard up, is favorable to improving the stability that ultra-thin charger charges.

Preferably, the charger body is provided with a hinge structure, the plug is rotationally connected with the charger body through the hinge structure, the charger body is provided with a containing groove, and the containing groove is used for containing the plug.

Through adopting above-mentioned technical scheme, the plug passes through hinge mechanism rotation with the charger body and is connected, is provided with the storage tank on the charger body and is used for the holding plug, when ultra-thin charger is idle, in the rotatable plug of user to the storage tank, is convenient for accomodate the plug.

Preferably, the cohesion mechanism comprises two clamping portions and springs, wherein the two clamping portions are arranged on two sides of the charger body, two ends of each spring are fixed with two ends of each clamping portion respectively, the two clamping portions are relatively close to or far away from each other, and side walls of the clamping portions are in butt fit with side walls of the power supply socket.

Through adopting above-mentioned technical scheme, two clamping parts are close to relatively or keep away from the centre gripping fixed of power supply socket that can realize different width for ultra-thin charger is applicable to the power supply socket of equidimension not.

Preferably, the clamping part comprises a connecting rod and a rotating rod, one end of the connecting rod is fixedly connected with the spring, and the other end of the connecting rod is rotationally connected with the rotating rod.

Through adopting above-mentioned technical scheme, because dwang and connecting rod rotate to be connected for the dwang can rotate certain angle, the accomodating of dwang of being convenient for.

Preferably, the charger body is provided with a guide rod, the guide rod is arranged along the arrangement direction of the two clamping parts, the connecting rod is provided with a guide block, and the guide block is movably sleeved on the guide rod.

Through adopting above-mentioned technical scheme, the guide block movable sleeve is located on the guide bar, and the guide bar plays a spacing effect of direction to the connecting rod.

Preferably, a pull ring is arranged on the rotating rod.

Through adopting above-mentioned technical scheme, the setting of pull ring convenient to use person adjusts the distance between two dwells to make ultra-thin charger be fixed in on the power supply socket of equidimension not.

Preferably, the inside wall of the rotating rod is provided with an adhesive tape, and the adhesive tape is in butt fit with the side wall of the power supply socket.

Through adopting above-mentioned technical scheme, the frictional force between dwang and the power supply socket has been increased in the setting of adhesive tape for better fixed between ultra-thin charger and the power supply socket.

Preferably, the charger body is provided with a handle.

Through adopting above-mentioned technical scheme, the setting of handle is convenient for the user to carry or shift ultra-thin charger.

In summary, the present utility model includes at least one of the following beneficial technical effects: the problem that the plug of the charger is not firm when the plug of the charger is inserted into the socket is solved, the situation that charging is influenced due to loosening of the plug of the ultrathin charger is reduced, and the charging stability of the ultrathin charger is improved.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of the ultra-thin charger according to the embodiment of the present utility model;

fig. 3 is a schematic structural view of a cohesion mechanism according to an embodiment of the present utility model.

Reference numerals illustrate: 1. a charger body; 2. a plug; 3. a jack interface; 4. a receiving groove; 5. a cohesion mechanism; 51. a clamping part; 511. a connecting rod; 512. a rotating lever; 52. a spring; 6. a handle; 7. a limiting hole; 8. a pull ring; 9. an adhesive tape; 10. a guide block; 11. and a guide hole.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-3.

The embodiment of the utility model discloses an ultrathin charger. Referring to fig. 1, an ultra-thin charger includes a charger body 1 and a plug 2, the charger body 1 is generally rectangular and configured as a conventional charging device, the charger body 1 is provided with a PCB board and a planar transformer inside, which is different from the conventional charging device in that the planar transformer is mounted on the PCB board, and the volume occupied by the charger body 1 can be further reduced correspondingly because the planar transformer is relatively smaller, so that the charger body 1 is relatively thinner. In addition, the charger body 1 bottom is provided with jack interface 3 and is used for charging for electronic equipment, and plug 2 passes through hinge structure rotation with charger body 1 and is connected, and holding groove 4 has been seted up to charger body 1 one side, and the shape in holding groove 4 and plug 2 shape looks adaptation, and holding groove 4 is used for the holding plug 2. The charger body 1 is provided with a cohesion mechanism 5, and the cohesion mechanism 5 is used for realizing the fixation between the charger body 1 and a power supply socket.

Referring to fig. 2 and 3, when the ultra-thin charger is idle, the plug 2 is disposed in the accommodating groove 4, and the surface of the plug 2 is flush with the surface of the charger body 1, so that the user can conveniently store the ultra-thin charger. When the ultra-thin charger is needed, a user rotates the plug 2 to be perpendicular to the surface of the charger body 1, inserts the plug 2 into the power supply socket, and then utilizes the cohesion mechanism 5 to fix the charger body 1 and the power supply socket, so that the condition that the charging is influenced due to loosening of the plug 2 of the ultra-thin charger is reduced, and the charging stability of the ultra-thin charger is improved.

Further, a handle 6 is fixed on the charger body 1, and the handle 6 is made of fibers with certain flexibility. When a user needs to carry the ultrathin charger out, the user can hold the handle 6 to lift the ultrathin charger for carrying, and can hang the ultrathin charger on a wall through the handle 6 so as to be convenient for storage.

On the other hand, the clasping mechanism 5 includes a holding portion 51 and a spring 52, the holding portion 51 is provided with two, the holding portion 51 includes a connecting lever 511 and a rotation lever 512, the connecting lever 511 and the spring 52 are built into the charger body 1, and the connecting lever 511 and the spring 52 are both provided along the width direction of the charger body 1. In addition, connecting rod 511 one end and spring 52 fixed connection, the spacing hole 7 has been seted up to charger body 1 both sides wall, and two spacing holes 7 are worn out respectively to two connecting rod 511 tip, and the connecting rod 511 other end rotates with the dwang 512 to be connected. Meanwhile, the rotating rods 512 are located at two sides of the charger body 1, the two rotating rods 512 are relatively close to or far away from each other through the springs 52, and when the plug 2 of the ultrathin charger is inserted into the power supply socket, the side walls of the rotating rods 512 are in butt fit with the side walls of the power supply socket.

Because the width of the power supply socket is different, the user can pull the rotating rod 512, at this time, the spring 52 generates elastic deformation, the two rotating rods 512 are mutually far away, the side wall of the rotating rod 512 is in butt fit with the side wall of the power supply socket, under the action of the elastic force of the spring 52, the rotating rod 512 clamps and fixes the power supply socket, and the rotating rod 512 is relatively close to or far away from the power supply socket through the spring 52, so that the ultrathin charger can be suitable for power supply sockets with different sizes. Because the rotation pole 512 is connected with the connecting rod 511 in a rotating way, when the ultra-thin charger is idle, the rotatable rotation pole 512 enables the length direction of the rotation pole 512 to be consistent with the length direction of the charger body 1, so that the rotation pole 512 is convenient to store.

In addition, the rotating rod 512 is rotatably supported by the pull ring 8 near one end of the connecting rod 511, and the user can pull the rotating rod 512 through the pull ring 8, when the user pulls the pull ring 8 towards two sides of the charger body 1, the spring 52 is elastically deformed, and the two connecting rods 511 slide reversely, so that the distance between the two rotating rods 512 is changed. The pull ring 8 is provided to facilitate the user to adjust the distance between the two rotating rods 512, so that the ultra-thin charger is fixed on power supply sockets with different sizes.

Further, the inner side wall of the rotating rod 512 is fixed with an adhesive tape 9, and when the ultra-thin charger is in a charging state, the adhesive tape 9 is in butt fit with the side wall of the power supply socket. In this embodiment, the rubber strip 9 is made of rubber with a certain elasticity, and the friction force between the rotating rod 512 and the power supply socket is increased by the arrangement of the rubber strip 9, so that the ultrathin charger is better fixed on the power supply socket.

Further, be fixed with the guide bar on the charger body 1, the guide bar is located the inside of charger body 1, and the guide bar sets up along the direction of arranging of two clamping parts 51, is fixed with guide block 10 on the connecting rod 511, has seted up guiding hole 11 on the guide block 10, and the guide bar wears to locate two guiding holes 11, and guide block 10 slides through guiding hole 11 and guide bar and is connected. The guide bar plays a role of guiding the guide block 10 and the connection bar 511 in a horizontal direction so that the connection bar 511 slides in a straight direction. Since the guide block 10 is fixed on the connecting rod 511, and the area of the side wall of the guide block 10 is larger than the area of the limiting hole 7, the connecting rod 511 is kept in the charger body 1, and the situation that the connecting rod 511 is pulled to the outer side of the charger body 1 due to overlarge pulling amplitude of a user is reduced.

The implementation principle of the ultrathin charger provided by the embodiment of the utility model is as follows:

when the ultra-thin charger is needed, a user rotates the plug 2 to be perpendicular to the surface of the charger body 1, inserts the plug 2 into the power supply socket, pulls the pull rings 8 towards two sides of the charger body 1, the springs 52 are elastically deformed, the guide blocks 10 of the two connecting rods 511 slide reversely along the guide rods, the distance between the two rotating rods 512 is changed, the side walls of the rotating rods 512 are in butt fit with the side walls of the power supply socket, the ultra-thin charger is fixed on the power supply socket, and the electronic equipment is connected to the ultra-thin charger, so that stable charging of the electronic equipment is realized.

When the ultra-thin charger is idle, the rotatable rotating rod 512 enables the length direction of the rotating rod 512 to be consistent with the length direction of the charger body 1, so as to facilitate the storage of the rotating rod 512. When a user needs to carry the ultrathin charger out, the user can hold the handle 6 to lift the ultrathin charger for carrying, and can hang the ultrathin charger on a wall through the handle 6 so as to be convenient for storage.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (2)

1. An ultra-thin charger, characterized in that: the charger comprises a charger body (1) and a plug (2), wherein the plug (2) is arranged on the charger body (1), a holding mechanism (5) is arranged on the charger body (1), the holding mechanism (5) is used for realizing the fixation between the charger body (1) and a power supply socket, a hinge structure is arranged on the charger body (1), the plug (2) is rotationally connected with the charger body (1) through the hinge structure, a containing groove (4) is arranged on the charger body (1), the containing groove (4) is used for containing the plug (2), the holding mechanism (5) comprises a clamping part (51) and a spring (52), the two clamping parts (51) are arranged on two sides of the charger body (1), two ends of the spring (52) are respectively fixed with the end parts of the two clamping parts (51), the two clamping parts (51) are relatively close to or far away from each other, the side wall of the clamping part (51) is matched with the power supply socket (511), the other end part of the connecting rod (511) is connected with the connecting rod (512) in a matched mode, the connecting rod (511) is connected with the connecting rod (512), be provided with the guide bar on charger body (1), the guide bar is followed two the direction of arranging of clamping part (51) sets up, be provided with guide block (10) on connecting rod (511), guide block (10) movable sleeve is located on the guide bar, be provided with pull ring (8) on dwang (512), dwang (512) inside wall is provided with adhesive tape (9), adhesive tape (9) and power supply socket lateral wall butt cooperation.

2. An ultra-thin charger according to claim 1, wherein: a handle (6) is arranged on the charger body (1).