CN117614289A - Power adapter convenient for recycling charging wires and application method thereof - Google Patents

Abstract

The invention relates to the technical field of power adapters, in particular to a power adapter convenient for recycling a charging wire and a use method thereof. The charging wire comprises an adapter body and a charging wire body, wherein a plurality of expansion parts are arranged on the charging wire body, each expansion part comprises a first expansion end and a second expansion end, the first expansion end and the second expansion end of one expansion part respectively form two tooth surfaces outside the charging wire body, after the two tooth surfaces are contacted with a carrying surface at the top of a wire collecting cavity, the two tooth surfaces are supported by the carrying surface, so that the charging wire body is provided with two positions to stay at the high side of the wire collecting cavity, and the charging wire body between the two positions naturally sags to form a V shape and is hung in the wire collecting cavity. After the plurality of expansion parts are placed on the carrying surface, a plurality of groups of sites are formed and stay on the carrying surface, so that the charging wire body in the wire collecting cavity is in a wave shape, the space in the wire collecting cavity is utilized efficiently, and the operation is more convenient and rapid only by placing the expansion parts on the carrying surface.

Description

Power adapter convenient for recycling charging wires and application method thereof

Technical Field

The invention relates to the technical field of power adapters, in particular to a power adapter convenient for recycling a charging wire and a use method thereof.

Background

In order to improve the convenience of use, the charging wires are arranged to be recyclable, and two main streams on the market at present are:

one, the charging wire itself sets up the recovery structure, for example: a winding component is arranged to enable the charging wire to be automatically wound under the action of elasticity;

secondly, set up the cavity on the adapter and carry out the holding to the charging wire, but the charging wire after putting into can not hang in the cavity, so put into the comparatively messy of charging wire in the cavity, in case messy just can not be fine carry out the space to the cavity and utilize, when this just leads to retrieving the charging wire, sometimes need impress the charging wire in the cavity, this inconvenient operation not only, but also can cause the damage to the charging wire.

Disclosure of Invention

The present invention is directed to a power adapter for recycling charging wires and a method for using the same, so as to solve the problems set forth in the background art.

In order to achieve the above object, one of the objects of the present invention is to provide a power adapter for recycling charging wires, which comprises an adapter body and a charging wire body, wherein the charging wire body is electrically connected with the adapter body, the adapter body is electrically connected with a power supply, and then is charged to the outside through the charging wire body, and a wire collecting cavity is arranged at the top of the adapter body;

the charging wire body is provided with a plurality of expansion parts;

the expansion part comprises a first expansion end and a second expansion end, the first expansion end and the second expansion end of one expansion part respectively form two tooth surfaces outside the charging wire body, and the two tooth surfaces are supported by the carrier surface after contacting with the carrier surface at the top of the wire collecting cavity, so that two positions on the charging wire body are stopped at the high side of the wire collecting cavity, and the charging wire body between the two positions naturally sags to be in a V shape and is suspended in the wire collecting cavity;

and the expansion parts enable the charging wire body in the wire collecting cavity to be wavy, so that the space in the wire collecting cavity is utilized.

As a further improvement of the technical scheme, the width of the tooth surface is wider than the width of the wire collecting cavity.

As a further improvement of the technical scheme, the expansion part is composed of an expansion plate, a first connecting port and a second connecting port are formed on two sides of the expansion plate, and the charging wire body sequentially penetrates through the first connecting port and the second connecting port;

the first connecting port and the second connecting port are respectively matched with an expansion plate at the periphery of the first connecting port and the second connecting port to form a first expansion end and a second expansion end, and the first expansion end and the second expansion end form two integrally connected tooth surfaces through the expansion plates.

As a further improvement of the technical scheme, the first connecting port/the second connecting port is fixedly connected with the charging wire body, and the inner contour of the second connecting port/the first connecting port is slightly larger than the outer contour of the charging wire body.

As a further improvement of the technical scheme, the expansion plate comprises two support plates, a first side plate and a second side plate are respectively arranged on two sides of the bottom of each support plate, the first side plate and the second side plate are fixedly connected with the two support plates, and a flexible inner plate is arranged between the first side plate and the second side plate;

the two ends of the inner plate are tilted upwards to separate from the supporting plate, and the middle part of the inner plate is fixedly connected with the supporting plate;

and a first connecting port and a second connecting port are respectively formed between the two ends of the inner plate and the first side plate and the second side plate.

As a further improvement of the technical scheme, the carrying surface is provided with an iron sheet, and the bottom of the tooth surface is provided with a magnet.

As a further improvement of the technical scheme, the expansion part is composed of a first split plate and a second split plate, wherein the first split plate forms a first expansion end, the second split plate forms a second expansion end, and the first split plate and the second split plate are fixedly connected with the charging wire body;

the charging wire body positioned between the first split plate and the second split plate forms a folding section;

wherein the first split plate and the second split plate respectively form two split tooth surfaces.

As a further improvement of the technical scheme, the carrying surface is provided with an iron sheet, the tooth surface bottom formed by the first split plate is provided with a magnet, and the second split plate is of an iron structure.

As a further improvement of the technical scheme, the expansion part comprises a first connecting plate and a second connecting plate, the first connecting plate forms a first expansion end, the second connecting plate forms a second expansion end, and the first connecting plate and the second connecting plate are fixedly connected with the charging wire body;

the charging wire body positioned between the first connecting plate and the second connecting plate forms a folding section;

wherein the first connecting plate and the second connecting plate respectively form two tooth surfaces;

the extension part further comprises an elastic rope, and the elastic rope is sequentially connected with the first connecting plate and the second connecting plate, so that the charging wire body is automatically recovered under the action of the elastic rope.

Another object of the present invention is to provide a method for using a power adapter for recycling a charging wire, which can use the power adapter for recycling a charging wire.

Compared with the prior art, the invention has the beneficial effects that:

in this power adapter convenient to retrieve charging wire and application method thereof, a plurality of extension parts all are put on the carrier surface after, will form the multiunit site and stop on the carrier surface, make the charging wire body of receipts line intracavity appear to be the wave to the efficient utilizes the space of receipts line intracavity, only need place extension part on the carrier surface moreover can, make the operation also more convenient.

Drawings

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

FIG. 2 is a schematic view of the structure of the charging cord body and the adapter body according to the present invention;

FIG. 3 is a schematic view of the structure of the extension part and the charging wire body of the present invention;

FIG. 4 is a schematic diagram of the operation of the first embodiment of the present invention, and a comparison between the width of the expansion board and the width of the charging wire body;

FIG. 5 is a schematic diagram of the connection between the inner plate and the clamping groove;

fig. 6 is a schematic diagram showing a specific composition structure of an expansion board according to a first embodiment of the present invention;

fig. 7 is a schematic view of an iron sheet set position according to a first embodiment of the present invention;

FIG. 8 is a schematic diagram of the operation of the second embodiment of the present invention and a schematic diagram of the width comparison between the split plate and the charging wire body;

fig. 9 is a schematic diagram of the operation of the third embodiment of the present invention and a comparison diagram of the widths of the connecting plate and the charging wire body.

The meaning of each reference sign in the figure is:

100. an adapter body; 110. a plug; 100A, a wire collecting cavity; 120. iron sheet;

200. a charging wire body; 200a, a power input end; 200b, a power output end; 210. a weight member; 220. a folding section; 230. a first site; 240. a second site; 250. a third site; 200A, a clamping groove;

300. an expansion section; 310. an expansion board; 311. a support plate; 312. an inner plate; 3121. a pressing plate; 313. a first side plate; 314. a second side plate; 310A, a first connection interface; 310B, a second connection port; 320. a first split plate; 330. a second split plate; 340. a first connection plate; 350. a second connecting plate; 360. an elastic rope.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

As shown in fig. 1, the present invention provides a power adapter for conveniently recycling a charging cord, which comprises an adapter body 100 and a charging cord body 200, wherein a plug 110 is provided at the bottom of the adapter body 100, one end of the charging cord body 200 forms a power input end 200a, the power input end 200a is connected to an output port on a housing of the adapter body 100, so as to be electrically connected to a power output unit in the housing through the output port, the other end of the charging cord body 200 forms a power output end 200b for being connected to a device end, and then outputting current to the device end, so as to charge the device end, because the technology of the adapter body 100 is very complete, the connection form between the power input end 200a and the output port, between the power output end 200b and the device end, and between the plug 110 and the power source can be any one of the prior art, and is not limited by the connection mode of the examples of the drawings.

In addition, the top of the adapter body 100 is provided with a wire receiving cavity 100A, as shown in fig. 2, the power adapter further includes an extension part 300, the extension part 300 is disposed on the wire receiving body 200, and a plurality of extension parts 300 are disposed according to the length of the wire receiving body 200, the extension part 300 includes a first extension end and a second extension end, because the width of the wire receiving cavity 100A is adapted to the width of the wire receiving body 200, actually, the width of the wire receiving cavity is slightly larger than the width of the wire receiving body 200, ensuring that the wire receiving body 200 can be smoothly placed in the wire receiving cavity 100A, but the placed wire receiving body 200 cannot be hung in the wire receiving cavity 100A, so that the wire receiving cavity 100A is relatively disordered, once disordered, the wire receiving cavity 100A cannot be well utilized spatially, which results in that when the wire receiving body 200 is recovered, the wire receiving body 200 is sometimes required to be pressed into the wire receiving cavity 100A, which is inconvenient to operate, and the charging wire body 200 is damaged, so that the expansion part 300 is arranged, then, two tooth surfaces are respectively formed at the first expansion end and the second expansion end outside the charging wire body 200 through the first expansion end and the second expansion end, and are supported by the carrier surface after being contacted with the carrier surface at the top of the wire collecting cavity 100A, so that the width of the tooth surface is wider than that of the wire collecting cavity 100A, two sites (two sites formed by the same expansion part 300 are in a group) are remained on the charging wire body 200 at the high side of the wire collecting cavity 100A, at the moment, the charging wire body 200 between the two sites is hung in the wire collecting cavity 100A in a V shape, because the plurality of expansion parts 300 are arranged on the charging wire body 200, after the plurality of expansion parts 300 are all placed on the carrier surface, a plurality of groups of sites are formed to stay on the carrier surface, so that a plurality of V-shaped connected charging wire bodies 200 are formed, that is, the wavy charging wire body 200 shown in fig. 2, so that the space in the wire receiving cavity 100A is utilized efficiently, and the expansion part 300 is only required to be placed on the carrying surface, so that the operation is more convenient.

In the first embodiment, as shown in fig. 3 and 4, the expansion part 300 in the present embodiment is formed by the expansion plate 310, the two sides of the expansion plate 310 are provided with the first connection port 310A and the second connection port 310B, the first connection port 310A and the second connection port 310B determine the opening size of the subsequent V-shaped charging wire body 200, so that, in order to fully utilize the space in the wire receiving cavity 100A, the space between the first connection port 310A and the second connection port 310B is not excessively large, and is preferably set to be 3-5mm, the charging wire body 200 sequentially passes through the first connection port 310A and the second connection port 310B, and then the first connection port 310A and the second connection port 310B are respectively matched with the expansion plate 310 on the periphery thereof to form a first expansion end and a second expansion end, and the first expansion end and the second expansion end form two integrally connected tooth surfaces through the expansion plate 310.

In the first embodiment, as shown in fig. 3, the charging wire body 200 can slide in the first connection port 310A and the second connection port 310B when the hand is pulled, so that the overall length of the charging wire body 200 is controlled by controlling the length of the V-shaped charging wire body 200, because the longer the length of the V-shaped charging wire body 200 is, the longer the charging wire body 200 is indicated to be folded in half, the overall length of the charging wire body 200 is shortened, and the position where the power output end 200B can reach is shortened when the position of the adapter body 100 is fixed, whereas the shorter the length of the V-shaped charging wire body 200 is, the position where the power output end 200B can reach is also lengthened.

In the second embodiment, as shown in fig. 3, the first connection port 310A/the second connection port 310B are fixedly connected to the charging wire body 200, so that the position of the expansion board 310 is fixed, which is less flexible than that of the first embodiment, but the internal profile of the second connection port 310B/the first connection port 310A is slightly larger than that of the charging wire body 200, so that the charging wire body 200 can easily slide in the second connection port 310B/the first connection port 310A, and meanwhile, the expansion board 310 cannot slide on the charging wire body 200 wantonly, so that the expansion board 310 is also displaced during recycling.

In addition, the charging wire body 200 with the maximum length can be pulled in the second connection port 310B/the first connection port 310A to form the folded section 220, and the weight member 210 is arranged in the middle of the folded section 220, so that the charging wire body 200 is automatically adjusted under the gravity action of the weight member 210 according to the position of the power output end 200B, if the power output end 200B needs to be pulled out, the length of the V-shaped charging wire body 200 is shortened under the action of pulling force, if the position of the power input end 200A is changed, after the charging wire body 200 becomes loose, the charging wire body 200 sags under the action of the weight member 210, so that the length of the V-shaped charging wire body 200 is lengthened, that is, the charging wire body 200 can easily slide in the second connection port 310B/the first connection port 310A to bring an additional effect.

In a third embodiment, the limitation is made on the composition structure of the expansion board 310 in this embodiment, as shown in fig. 4, the expansion board 310 includes two support boards 311, two sides of the bottom of the two support boards 311 are respectively provided with a first side board 313 and a second side board 314, the first side board 313 and the second side board 314 are fixedly connected with the two support boards 311, a flexible inner board 312 is provided between the first side board 313 and the second side board 314, fig. 4 also shows the comparison situation that the width of the two support boards 311 is greater than the width L1 of the charging wire body 200, in the drawing, the width L2 of the two support boards 311 is greater than the width L1 of the charging wire body 200, so that a tooth surface is formed by the support boards 311, two ends of the inner board 312 are lifted upwards to be separated from the support boards 311, the middle part of the inner board 312 is fixedly connected with the support boards 311, and two ends of the inner board 312 are respectively connected with the first side board 313 and the second side board 310A first connecting interface 310A and the second connecting interface 310B, the inner board 200 can slide in the first connecting interface 310A and the second connecting interface 310B under the pulling of the hand, the inner board 200 is limited by the two ends of the inner board 312, the inner board is lengthened, the width L2 is greater than the width L1 of the two support boards and the width L2 is greater than the width L1 of the inner board, so that the inner board 200 is not damaged by the inner board 200 or can be easily damaged by the sliding wire 200.

The principle of forming the V-shaped charging wire body 200 is described with reference to fig. 4, firstly, after the extension board 310 (for convenience of understanding, the specific composition structure of the extension board 310 is summarized in the third embodiment herein) is placed on the carrying surface of the wire receiving cavity 100A, the tooth surface is supported by the carrying surface to make the extension board 310 stay on the carrying surface, then the charging wire body 200 under the constraint of the first connection port 310A and the second connection port 310B forms the first site 230 and the second site 240 on the carrying surface, and the bottom naturally sags to form the third site 250, so that the V-shaped charging wire body 200 is formed.

As shown in fig. 5, a clamping groove 200A is formed at one end of the charging wire body 200 corresponding to the inner plate 312, so that the end of the inner plate 312 is clamped with the clamping groove 200A, the first connection port 310A/the second connection port 310B can be fixed to the charging wire body 200, the position of the support plate 311 is fixed, the charging wire body 200 with the maximum length capable of being pulled in the second connection port 310B/the first connection port 310A forms a folding section 220, and a counterweight 210 is arranged at the middle position of the folding section 220, so that after the end of the inner plate 312 far from the clamping groove 200A is buckled, the charging wire body 200 in a loose state can droop under the action of gravity of the counterweight 210, and in addition, as shown in fig. 6, a hard pressing plate 3121 is arranged at one side of the inner plate 312 far from the clamping groove 200A, so that the limitation of the corresponding inner plate 312 end to the charging wire body 200 can be easily released by pressing the pressing plate 3121.

Preferably, as shown in fig. 1, except the top, a side of the wire receiving cavity 100A far away from the power input end 200A is hollowed out, so that the charging wire body 200 is more convenient to recover and take out, and after the expansion board 310 is placed on the carrying surface, the expansion board 310 can be pushed to the side where the power input end 200A is located, so that a plurality of V-shaped charging wire bodies 200 are more compact.

In this embodiment, as shown in fig. 7, the carrying surface is provided with the iron sheet 120, and the bottom of the expansion board 310/support board 311 is provided with the magnet, so that the support board 311 placed on the iron sheet 120 will be more stable, and there may be a discontinuous process when pulling, so that a plurality of expansion boards 310/support boards 311 are not pulled out at a time, and the specific process is as follows:

the charging wire body 200 is pulled by pinching the power input end 200a, the expansion plate 310 close to one side of the power input end 200a is pulled out by first exerting force, at this time, only the charging wire body 200 is pulled lightly, the corresponding folding section 220 of the first expansion plate 310 is spread, after the spreading is completed, the second expansion plate 310 is also sucked on the iron sheet 120, at this time, if the length is still insufficient, the second expansion plate 310 is pulled out by second exerting force, so that the corresponding folding section 220 of the second expansion plate 310 is spread, and then a discontinuous pulling process is presented by analogy, so that the latter expansion plate 310 can be used only after the spreading of the previous corresponding folding section 220 is completed.

In the second embodiment, as shown in fig. 8, the expansion part 300 in the present embodiment is formed of a first split plate 320 and a second split plate 330, adjacent first split plate 320 and second split plate 330 form a group, a plurality of groups are disposed outside the charging wire body 200, wherein the first split plate 320 forms a first expansion end, the second split plate 330 forms a second expansion end, the first split plate 320 and the second split plate 330 are fixedly connected with the charging wire body 200, and the charging wire body 200 between the first split plate 320 and the second split plate 330 forms a folding section 220, and in fig. 8, the comparison of the widths of the first split plate 320 and the second split plate 330 with the width of the charging wire body 200 is also shown, in the figure, the width L3 of the first split plate 320 and the second split plate 330 is greater than the width L1 of the charging wire body 200, and the portions of the first split plate 320 and the second split plate 330 that are more than the width L1 respectively form two tooth surfaces, and the two tooth surfaces are contacted with the carrier surface, then two positions of the charging wire body 200 are left on the carrier surface under the support of the carrier surface, and the other position naturally sags, so that the folded section 220 is in a V shape, but compared with the first embodiment, the embodiment is more convenient in elongating the charging wire body 200, and because the two tooth surfaces are split, the folded section 220 in the V shape is directly unfolded by pulling the charging wire body 200.

Further, as shown in fig. 8, the first split plate 320 is provided with a magnet at the bottom of the tooth surface, and then the second split plate 330 is formed in an iron structure, so that the first split plate 320 and the second split plate 330 can be adsorbed together.

In addition, as shown in fig. 8, the carrying surface is provided with the iron sheet 120, so that the first split plate 320 can be adsorbed on the iron sheet 120, and the adsorption force between the first split plate 320 and the iron sheet 120 is greater than the adsorption force between the first split plate 320 and the second split plate 330, when the electric power input end 200a is pinched to pull the charging wire body 200, the first split plate 320 close to one side of the electric power input end 200a is pulled out by first force, at this time, because the adsorption force between the next first split plate 320 and the iron sheet 120 is greater than the adsorption force between the first split plate 320 and the second split plate 330 pulled out at this time, the first split plate 320 and the second split plate 330 pulled out are separated under the tensile force on both sides, so that the corresponding folded section 220 is spread, after the spreading is completed, the next first split plate 320 is also sucked on the iron sheet 120, if the length is still insufficient, the next first split plate 320 is pulled out by second force, and the next split plate 320 is pulled out by the same time, and the corresponding folded section 220 is just spread, and the next folded section is just after the spreading is completed, and the next folded section is performed, and the next process is performed, and only after the next spreading is completed.

In addition, a counterweight 210 (shown in fig. 8) may also be provided in the middle of the folded section 220 in this embodiment.

In the third embodiment, as shown in fig. 9, the extension part 300 in the present embodiment is formed by a first connection plate 340 and a second connection plate 350, adjacent first connection plate 340 and second connection plate 350 form a group, a plurality of groups are provided outside the charging wire body 200, wherein the first connection plate 340 forms a first extension end, the second connection plate 350 forms a second extension end, the first connection plate 340 and the second connection plate 350 are fixedly connected with the charging wire body 200, and the charging wire body 200 between the first connection plate 340 and the second connection plate 350 forms a folded section 220, and in fig. 9, the comparison of the widths of the first connection plate 340 and the second connection plate 350 with the width of the charging wire body 200 is also shown, in the figure, the width L4 of the first connecting plate 340 and the second connecting plate 350 is greater than the width L1 of the charging wire body 200, the portions of the first connecting plate 340 and the second connecting plate 350 that are more than the width L1 respectively form two tooth surfaces, the two tooth surfaces are contacted with the carrying surface, then under the support of the carrying surface, two positions of the charging wire body 200 are left on the carrying surface, and the other position naturally sags, so that the folding section 220 is in a V shape, but compared with the first embodiment, the embodiment is more convenient when the charging wire body 200 is elongated, because the two tooth surfaces are separated, the charging wire body 200 is pulled, and the V-shaped folding section 220 is directly unfolded;

moreover, as shown in fig. 9, the extension part 300 further includes an elastic rope 360, one end of the elastic rope 360 is fixedly connected to the first connecting plate 340 of the head, and then the subsequent first connecting plate 340 and the second connecting plate 350 are sequentially connected, so that the charging wire body 200 can be automatically recovered under the action of the elastic rope 360, but a plurality of sections of rope forming forces exist, so that the charging wire body 200 is difficult to be pulled apart during use, and in view of this, the embodiment makes an improvement:

one end of the elastic rope 360 is fixedly connected to the first connecting plate 340 of the head, then through holes are formed in the subsequent first connecting plate 340 and the second connecting plate 350 along the horizontal axial direction, at this time, the elastic rope 360 sequentially passes through the through holes in the subsequent first connecting plate 340 and the second connecting plate 350, then the other end of the elastic rope 360 is fixed, preferably the elastic rope 360 is fixed on the adapter body 100, so that acting force is formed only on the section of the elastic rope 360, and pulling is more labor-saving.

In addition, a counterweight 210 (shown in fig. 8) may also be provided in the middle of the folded section 220 in this embodiment.

Another object of the present embodiment is to provide a method of using a power adapter for facilitating recycling of a charging cord, which can be used.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a power adapter convenient to retrieve charging wire, its includes adapter body (100) and charging wire body (200), charging wire body (200) carry out electric connection with adapter body (100), after adapter body (100) are connected with the power, charge outward through charging wire body (200), characterized in that, the top of adapter body (100) is provided with receipts line chamber (100A);

the charging wire body (200) is provided with a plurality of expansion parts (300);

the expansion part (300) comprises a first expansion end and a second expansion end, the first expansion end and the second expansion end of one expansion part (300) respectively form two tooth surfaces outside the charging wire body (200), and after the two tooth surfaces are contacted with the carrying surface at the top of the wire collecting cavity (100A), the two tooth surfaces are supported by the carrying surface, so that two positions on the charging wire body (200) are stopped at the high side of the wire collecting cavity (100A), and at the moment, the charging wire body (200) between the two positions naturally sags to form a V shape and is suspended in the wire collecting cavity (100A);

and so on, the plurality of expansion parts (300) enable the charging wire body (200) in the wire collecting cavity (100A) to be in a wave shape so as to utilize the space in the wire collecting cavity (100A).

2. The power adapter for facilitating recycling of charging wires according to claim 1, wherein the width of the tooth face is wider than the width of the wire receiving cavity (100A).

3. The power adapter for facilitating recycling of charging wires according to claim 1, wherein the expansion part (300) is composed of an expansion plate (310), a first connection port (310A) and a second connection port (310B) are provided on both sides of the expansion plate (310), and the charging wire body (200) sequentially passes through the first connection port (310A) and the second connection port (310B);

the first connecting port (310A) and the second connecting port (310B) are respectively matched with an expansion plate (310) at the periphery of the first connecting port and the second connecting port to form a first expansion end and a second expansion end, and the first expansion end and the second expansion end form two integrally connected tooth surfaces through the expansion plate (310).

4. The power adapter for facilitating recycling of charging wires according to claim 3, wherein the first connection port (310A)/second connection port (310B) is fixedly connected with the charging wire body (200), and an inner contour of the second connection port (310B)/first connection port (310A) is slightly larger than an outer contour of the charging wire body (200).

5. A power adapter for facilitating recycling of charging wires according to claim 3, wherein the expansion plate (310) comprises two support plates (311), a first side plate (313) and a second side plate (314) are respectively arranged at two sides of the bottom of the two support plates (311), the first side plate (313) and the second side plate (314) are fixedly connected with the two support plates (311), and a flexible inner plate (312) is arranged between the first side plate (313) and the second side plate (314);

the two ends of the inner plate (312) are tilted upwards to be separated from the supporting plate (311), and the middle part of the inner plate (312) is fixedly connected with the supporting plate (311);

a first connecting port (310A) and a second connecting port (310B) are formed between two ends of the inner plate (312) and the first side plate (313) and the second side plate (314) respectively.

6. A power adapter for facilitating recycling of charge cord according to claim 3, characterized in that iron sheet (120) is provided on the carrying surface and a magnet is provided on the tooth bottom.

7. The power adapter for facilitating recycling of charging wires according to claim 1, wherein the expansion portion (300) is constituted by a first split plate (320) and a second split plate (330), wherein the first split plate (320) forms a first expansion end, the second split plate (330) forms a second expansion end, and both the first split plate (320) and the second split plate (330) are fixedly connected with the charging wire body (200);

the charging wire body (200) between the first split plate (320) and the second split plate (330) forms a folding section (220);

wherein the first split plate (320) and the second split plate (330) form two split tooth surfaces, respectively.

8. The power adapter for facilitating recycling of charging wires according to claim 7, wherein an iron sheet (120) is provided on the carrying surface, a magnet is provided at a tooth surface bottom formed by the first split plate (320), and the second split plate (330) is of an iron structure.

9. The power adapter for facilitating recycling of charging wires according to claim 1, wherein the extension portion (300) includes a first connection plate (340) and a second connection plate (350), the first connection plate (340) forming a first extension end, the second connection plate (350) forming a second extension end, the first connection plate (340) and the second connection plate (350) both being fixedly connected with the charging wire body (200);

the charging wire body (200) between the first connecting plate (340) and the second connecting plate (350) forms a folding section (220);

wherein the first connecting plate (340) and the second connecting plate (350) respectively form two tooth surfaces;

the extension part (300) further comprises an elastic rope (360), and the elastic rope (360) is sequentially connected with the first connecting plate (340) and the second connecting plate (350) so that the charging wire body (200) can be automatically recovered under the action of the elastic rope (360).

10. A method of using a power adapter for facilitating recycling of charging wires, characterized in that the power adapter for facilitating recycling of charging wires of claims 1-9 can be used.