阅读说明：本技术 一种易拆卸的便携式收线装置 (Quick detachable portable take-up ) 是由 章曼硕 杜力 于 2021-08-30 设计创作，主要内容包括：本公开提供了一种易拆卸的便携式收线装置,该收线装置用于收纳数据线,数据线包括用于连接电子装置的第一接头和第二接头,以及用于连接第一接头和第二接头的线体,其特征在于,所述第一接头和第二接头容纳于所述收线装置中,所述线体穿过所述收线装置并部分露出所述收线装置之外,所述收线装置包括第一盖体和第二盖体,所述第一盖体与所述第二盖体可拆卸式连接,所述第一盖体与所述第二盖体的连接方式包括螺纹连接、卡片与卡槽紧配式连接或卡扣与卡孔紧配式连接中的任意一种。由此,能够解决现有的收纳数据线的收线装置造价成本高以及不方便数据线换取的问题。(The utility model provides a quick detachable portable take-up, this take-up is used for accomodating the data line, and the data line is including first joint and the second joint that is used for connecting electron device to and be used for connecting the line body of first joint and second joint, its characterized in that, first joint and second joint hold in take-up, the line body passes take-up and partly exposes outside the take-up, take-up includes first lid and second lid, first lid with the detachable connection of second lid, the first lid with the connected mode of second lid includes any one in threaded connection, card and draw-in groove close-fitting connection or buckle and card hole close-fitting connection. From this, can solve the current take-up that accomodates the data line problem that take off cost is with high costs and inconvenient data line trades for.)

1. A portable take-up device easy to disassemble is used for accommodating a data wire, the data wire comprises a first joint and a second joint used for connecting an electronic device, and a wire body used for connecting the first joint and the second joint, and is characterized in that the first joint and the second joint are accommodated in the take-up device, the wire body passes through the take-up device and is partially exposed out of the take-up device, the take-up device comprises a first cover body and a second cover body, the first cover body is detachably connected with the second cover body, an annular convex block is arranged on the outer edge of the lower portion of the first cover body, an annular groove matched with the annular convex block in a clamping mode is arranged on the inner wall of the upper portion of the second cover body, so that the first cover body and the second cover body are connected and locked together, and the second cover body comprises a first shell body and a second shell body which are detachable, the first housing is provided with a first magnet and a second magnet, the second housing is provided with a third magnet and a fourth magnet, the first magnet and the third magnet are magnetically connected so that the first housing and the second housing are combined into the second cover, and the second magnet and the fourth magnet are magnetically connected so that the data line passes through the first housing and the second housing in an extended manner.

2. Portable wire take-up device as claimed in claim 1,

a magnetic force between the first magnet and the third magnet is greater than a magnetic force between the second magnet and the fourth magnet.

3. Portable wire take-up device as claimed in claim 1,

the second lid is the cylinder structure, first casing with the second casing is the halfcylinder structure of symmetry respectively, first casing side edge inlays respectively and is equipped with long banding fifth magnet and sixth magnet, second casing side edge inlays respectively and is equipped with long banding seventh magnet and eighth magnet, the fifth magnet with seventh magnet magnetism is connected, the sixth magnet with eighth magnet magnetism is connected, so that first casing with the second casing merges and does the second lid.

4. Portable wire take-up device as claimed in claim 3,

the second magnet is embedded in the bottom semicircular arc of the first shell, and the fourth magnet is embedded in the bottom semicircular arc of the second shell.

5. Portable wire take-up device as claimed in claim 1,

the first cover body is provided with an open hanging ring and a ninth magnet.

6. Portable wire take-up device as claimed in claim 1,

the size of the through hole is smaller than the size of the first joint and the second joint.

7. Portable wire take-up device as claimed in claim 1,

the wire body is bent into two sections, the second cover body is provided with a first through hole and a second through hole, the two sections of wire bodies respectively penetrate through the first through hole and the second through hole and are partially exposed out of the second cover body, and the bent parts of the two sections of wire bodies exposed out of the second cover body form a hanging rope.

8. Portable wire take-up device as claimed in claim 7,

the first through hole is formed in the inner cavity of the first shell, the second through hole is formed in the inner cavity of the second shell, and the wire body penetrates through the first through hole and the second through hole.

9. Portable wire take-up device as claimed in claim 7,

when the second magnet and the fourth magnet are magnetically connected, the wire body penetrates through the first through hole and the second through hole so as to enable the first through hole to be communicated with the second through hole.

10. Portable wire take-up device as claimed in claim 7,

the first shell is provided with a rubber protective layer at the side edge of the second magnet, the fifth magnet and the sixth magnet, and the second shell is provided with a rubber protective layer at the side edge of the fourth magnet, the seventh magnet and the eighth magnet.

Technical Field

The invention relates to the technical field of data lines, in particular to a portable take-up device easy to disassemble.

Background

The data line can be used for charging the electronic equipment and data transmission between the electronic equipment and the PC terminal. However, the data line is often discarded after being used, the long line body of the data line is easy to knot and wind, and the joints at the two ends of the data line are exposed outside frequently and are easy to oxidize to cause rusting, which causes great troubles for one-time or multiple-time use.

Although the existing data line take-up device capable of being stored and taken has the function of solving the problems, the existing data line take-up device is complex in design and inconvenient to disassemble, so that the cost is high and the data line is inconvenient to replace.

Disclosure of Invention

An object of the embodiment of the present disclosure is to provide a portable take-up device easy to disassemble, which can solve the problems of high cost and inconvenient data line replacement of the existing take-up device for accommodating data lines.

Therefore, the present disclosure provides an easily detachable portable wire rewinding device for storing a data wire, the data wire includes a first joint and a second joint for connecting an electronic device, and a wire body for connecting the first joint and the second joint, the first joint and the second joint are accommodated in the wire rewinding device, the wire body passes through the wire rewinding device and partially exposes out of the wire rewinding device, the wire rewinding device includes a first cover body and a second cover body, the first cover body is detachably connected with the second cover body, an annular projection is disposed on an outer edge of a lower portion of the first cover body, an annular groove adapted to the annular projection is disposed on an inner wall of an upper portion of the second cover body, so that the first cover body and the second cover body are connected and locked together, the second cover body includes a first housing and a second housing which are detachable, the first housing is provided with a first magnet and a second magnet, the second housing is provided with a third magnet and a fourth magnet, the first magnet and the third magnet are magnetically coupled to merge the first housing and the second housing into a second cover, and the second magnet and the fourth magnet are magnetically coupled to pass the data line through the first housing and the second housing in an extended manner.

In the above scheme, the first cover body can be used for protecting the first joint and the second joint of the data line, and the first cover body and the second cover body are arranged to be detachable structures, so that the data line joint (including the first joint and the second joint) can be conveniently charged when exposed. On the other hand, through setting up the second lid to detachable structure, can make the data line extend completely when second magnet and fourth magnet magnetism are connected and flare-out, and then can lengthen the charging distance at data line both ends, also can conveniently trade the data line when first casing and second casing are dismantled.

In addition, in the portable wire rewinding device relating to the present disclosure, optionally, a magnetic force between the first magnet and the third magnet is larger than a magnetic force between the second magnet and the fourth magnet. Therefore, the connection of the wire take-up device can be more stable when the data wire is stored.

In addition, in the portable wire take-up device according to the present disclosure, optionally, the second cover has a cylindrical structure, the first casing and the second casing have symmetrical semi-cylindrical structures, the first casing has a side edge in which a fifth magnet and a sixth magnet are embedded, the second casing has a side edge in which a seventh magnet and an eighth magnet are embedded, the fifth magnet and the seventh magnet are magnetically connected, and the sixth magnet and the eighth magnet are magnetically connected, so that the first casing and the second casing are combined into the second cover. Thereby, the first housing and the second housing can be connected more firmly.

In addition, in the portable wire take-up device according to the present disclosure, optionally, the second magnet is embedded in a bottom semicircular arc of the first housing, and the fourth magnet is embedded in a bottom semicircular arc of the second housing. Thereby, the first housing and the second housing can be connected more firmly.

In addition, in the portable cord rewinding device according to the present disclosure, the first lid may be provided with an open hook and a ninth magnet. From this, can convenience of customers hang this take-up on one's body, knapsack or room somewhere through the link, can make things convenient for the data line to adsorb first lid on ironwork when using through the ninth magnet.

In addition, in the portable wire rewinding device relating to the present disclosure, optionally, the size of the through hole is smaller than the sizes of the first joint and the second joint. Thus, the data line can be prevented from being separated from the second cover body.

In addition, in the portable wire rewinding device according to the present disclosure, optionally, the wire body is bent into two pieces, the second cover body is provided with a first through hole and a second through hole, the two pieces of wire body respectively pass through the through holes and are partially exposed outside the second cover body, and the bent portions of the two pieces of wire body exposed outside the second cover body form a hanging rope. Therefore, the wire take-up device can be conveniently hung through the hanging rope when the wire take-up device is idle.

In addition, in the portable wire rewinding device according to the present disclosure, optionally, a first through hole is formed in the case cavity of the first case, a second through hole is formed in the case cavity of the second case, and the wire body passes through the first through hole and the second through hole. Therefore, the data wire can be conveniently passed through the first shell and the second shell.

In addition, in the portable wire rewinding device according to the present disclosure, optionally, when the second magnet and the fourth magnet are magnetically connected, the wire body is passed through the first through hole and the second through hole to communicate the first through hole and the second through hole. Therefore, the data wire can be further conveniently stretched and stretched when in use.

In the portable cord rewinding device according to the present disclosure, the first casing may be provided with a rubber protective layer on side edges of the second, fifth, and sixth magnets, and the second casing may be provided with a rubber protective layer on side edges of the fourth, seventh, and eighth magnets. Therefore, the outer edges of the first shell and the second shell can be conveniently protected.

In the above scheme, the first cover body can be used for protecting the first joint and the second joint of the data line, and the first cover body and the second cover body are arranged to be detachable structures, so that the data line joint (including the first joint and the second joint) can be conveniently charged when exposed. On the other hand, through setting up the second lid to detachable structure, can make the data line extend completely when second magnet and fourth magnet magnetism are connected and flare-out, and then can lengthen the charging distance at data line both ends, also can conveniently trade the data line when first casing and second casing are dismantled.

Drawings

To more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and those skilled in the art can also obtain other drawings according to the drawings without inventive labor.

Fig. 1 is a schematic perspective view of a portable wire rewinding device according to an embodiment of the present disclosure;

fig. 2 is a schematic view of a portable wire rewinding device according to an embodiment of the present disclosure during charging.

Wherein, in the figures, the respective reference numerals:

the first cover … 10, the second cover … 20, the first tab … 31, the second tab … 32, the wire body … 33, the annular protrusion … 110, the hanging ring … 120, the annular groove … 210, the first housing 220, the second housing … 230, the second magnet … 223, the fourth magnet … 233, the fifth magnet … 221, the sixth magnet … 222, the seventh magnet … 231, the eighth magnet … 232, the first through hole … 240, and the second through hole … 250.

Detailed Description

The inventor finds that the following technical problems exist in the prior art: the existing take-up device for accommodating the data line is complex in design and inconvenient to disassemble, so that the manufacturing cost is high and the data line is inconvenient to replace.

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present disclosure more clearly understood, the present disclosure is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the disclosure and are not intended to limit the disclosure.

Fig. 1 is a schematic perspective view of a portable wire rewinding device according to an embodiment of the present disclosure; fig. 2 is a schematic view of a portable wire rewinding device provided in an embodiment of the present disclosure when charging is facilitated.

Referring to fig. 1 and 2, the portable wire rewinding device (hereinafter, simply referred to as a wire rewinding device) capable of automatically rewinding a data wire according to the present embodiment may include a first cover 10 and a second cover 20 that are detachable, and the second cover 20 may further include a first case 220 and a second case 230 that are detachable. The data line may include a first connector 31, a second connector 32, and a line body 33, and the data line is connected to the peripheral electronic device by means of the first connector 31 and the second connector 32 for charging and data transmission.

In some examples, the first connector 31 may include any one of a USB 1.1 interface, a USB 2.0 interface, a USB3.0 interface, a USB3.1 interface, a lightning interface, a micro USB interface, a mini USB interface, a type-a interface, a type-C interface, and an iPhone 30pin interface.

In some examples, the second connector 32 may include any one of a lightning interface, a micro USB interface, a mini USB interface, a type-A interface, a type-C interface, and an iPhone 30pin interface.

In some examples, the electronic device may include a computer, a tablet, a mobile phone, a headset, and the like. Specifically, the first connector 31 may be used to connect a computer, and the second connector 32 may be used to connect a tablet, a mobile phone, a headset, and the like.

In the present embodiment, the data line may include a first connector 31 and a second connector 32 for connecting the electronic device, and a line body 33 for connecting the first connector 31 and the second connector 32. The first and second couplers 31 and 32 may be received in the take-up device, and the wire body 33 may pass through the take-up device and be partially exposed outside the take-up device. The wire take-up device may include a first cover 10 and a second cover 20, wherein the first cover 10 and the second cover 20 are detachably connected. The lower outer edge of the first cover body 10 is provided with an annular protrusion 110, and the upper inner wall of the second cover body 20 is provided with an annular groove 210 which is matched with the annular protrusion 110 in a clamping manner, so that the first cover body 10 and the second cover body 20 are connected and locked together. The second cover 20 may include a first case 220 and a second case 230 that are detachable, the first case 220 may be provided with a first magnet and a second magnet 223, the second case 230 may be provided with a third magnet and a fourth magnet 233 that are magnetically coupled such that the first case 220 and the second case 230 are combined into the second cover 20, and the second magnet 223 and the fourth magnet 233 are magnetically coupled such that the data line passes through the first case 220 and the second case 230 in an extended manner (as shown in fig. 2).

In the above solution, the first cover 10 can be used for protecting the first connector 31 and the second connector 32 of the data cable, and the wire rewinding device can facilitate charging when the data cable connectors (including the first connector 31 and the second connector 32) are exposed by arranging the first cover 10 and the second cover 20 as detachable structures. On the other hand, by configuring the second cover 20 as a detachable structure, the data line can be conveniently and completely extended and straightened when the second magnet 223 and the fourth magnet 233 are magnetically connected, so that the charging distance between the two ends of the data line can be lengthened, and the data line can also be conveniently exchanged when the first housing 220 and the second housing 230 are detached.

In some examples, the magnetic force between the first magnet and the third magnet may be greater than the magnetic force between the second magnet 223 and the fourth magnet 233. In this case, since the magnetic force between the first magnet and the third magnet is greater than the magnetic force between the second magnet 223 and the fourth magnet 233, the first housing 220 and the second housing 230 can be combined into the second cover 20 when the data cable is stored, so that the connection of the wire rewinding device can be more stable, and the wire rewinding device can be more conveniently stored.

In some examples, the second cover 20 may have a cylindrical structure, and the first housing 220 and the second housing 230 may have symmetrical semi-cylindrical structures. The first casing 220 may have the fifth and sixth magnets 221 and 222 embedded in the side edges thereof, the second casing 230 may have the seventh and eighth magnets 231 and 232 embedded in the side edges thereof, the fifth and seventh magnets 221 and 231 may be magnetically coupled, and the sixth and eighth magnets 222 and 232 may be magnetically coupled, so that the first casing 220 and the second casing 230 are combined into the second cover 20. In this case, the first and second housings 10 and 232 can be more stably coupled by virtue of the magnetic attractive forces between the fifth and seventh magnets 221 and 231 and between the sixth and eighth magnets 222 and 232.

In some examples, the shapes and sizes of the fifth magnet 221, the seventh magnet 231, the sixth magnet 222, and the eighth magnet 232 may be identical. In this case, the magnitude of the magnetic attraction force between the fifth magnet 221 and the seventh magnet 231, and between the sixth magnet 222 and the eighth magnet 232 can be more balanced, and thus the first casing 10 and the second casing can be more firmly coupled.

In some examples, the second magnet 223 may be embedded at a bottom end semi-arc of the first housing 220, and the fourth magnet 233 may be embedded at a bottom end semi-arc of the second housing 230, and when the first housing 220 and the second housing 230 are disassembled, the bottom end semi-arc of the first housing 220 and the bottom end semi-arc of the second housing 230 may be aligned, and further the first housing 220 and the second housing 230 are connected together by means of magnetic attraction of the second magnet 223 and the fourth magnet 233. Under this condition, can make first through-hole 240 and second through-hole 250 connect into a straight line under the magnetic attraction of second magnet 223 and fourth magnet 233, from this, the first casing of connection and the second casing that on the one hand can be more firm, on the other hand can conveniently make the data line extend and flare out, can be more convenient for user's remote demand of charging, on the one hand, can avoid the data line to tie a knot to a certain extent.

In some examples, the first cover 10 may be provided with an open suspension loop 120 and a ninth magnet. Under this condition, can convenience of customers hang this take-up on one's body, knapsack or room somewhere through the link, can make things convenient for the data line to adsorb first lid on ironwork when using through the ninth magnet.

In some examples, the size of the through-holes (which may include the first through-hole 240 and the second through-hole 250) may be smaller than the size of the first and second contacts 31 and 32. This prevents the data line from coming off the second cover 20, and further prevents the data line from coming off the first case 220 and the second case 230.

In some examples, the wire body 33 may be bent into two pieces, the second cover 20 may be provided with a first through hole 240 and a second through hole 250, the two pieces of wire body may respectively pass through the first through hole 240 and the second through hole 250 and partially expose out of the second cover 20, and the bent portion of the two pieces of wire body exposed out of the second cover 20 forms a hanging rope. Under this condition, can conveniently hang through hanging the rope and put when this take-up is idle.

In some examples, the housing lumen of the first housing 220 may be formed with a first through-hole 240, the housing lumen of the second housing 230 is formed with a second through-hole 250, and the wire body 33 may pass through the first through-hole 240 and the second through-hole 250. Thus, the wire body 33 of the data line can be easily inserted through the second cover 20 composed of the first case 220 and the second case 230.

In some examples, when the second magnet 223 and the fourth magnet 233 are magnetically connected, a wire body is passed through the first through hole 240 and the second through hole 250 to communicate the first through hole 240 and the second through hole 250. In this case, when using the data line, can make second magnet 223 and fourth magnet 233 magnetism connect through making first magnet and third magnet separation, and then make first through-hole 240 and second through-hole 250 UNICOM be a straight line, can further make things convenient for the data line to stretch and extend this data line when using, on the other hand, when needs trade other data line and use, only need take out this data line when first through-hole 240 and second through-hole 250 UNICOM and trade can, convenient easy operation, and can not receive the influence of first joint 31 and second joint 32.

In other examples, it is understood that additional fasteners may be disposed within the first and second housings 220, 230 to secure the wire body 33 within the first and second housings 220, 230. Particularly, the positions of the inlet and outlet of the data line body of the first housing 220 and the second housing 230 may be respectively set as a matched micro round opening capable of being clamped with the line body, the micro round opening may be attached by a rubber protective layer, and the upper and lower surfaces of the second cover 20 are provided with two micro round openings. This can further stabilize the data line, and can also provide an excellent sealing effect to the second cover 20.

In some examples, a movable snap ring and snap ring adapter may be provided within the first housing 220 and the second housing 230, respectively, with the snap ring being movably connected to the snap ring adapter. The snap ring may be used to snap the data wire body 33 when the wire body is placed in the first and second housings 220 and 230, respectively. Thereby, the data line can be more stably seated in the second cover 20.

In some examples, the first housing 220 may be provided with a protective layer of rubber on a side edge where the second, fifth, and sixth magnets 223, 221, and 222 are provided, and the second housing 230 may be provided with a protective layer of rubber on a side edge where the fourth, seventh, and eighth magnets 233, 231, and 232 are provided. Therefore, the outer edges of the first shell and the second shell can be conveniently protected.

In some examples, the take-up device may be substantially cylindrical in shape (as shown in fig. 1). In other examples, the shape of the take-up device may be a rectangular parallelepiped, a cube, or other irregular shapes. From this, can satisfy user's aesthetic requirement simultaneously according to the different take-up of user's demand design.

The specific working principle is as follows:

when the data cable is stored by using the wire retrieving device, the first housing 220 and the second housing 230 may be first attracted to the second cover 20 by the magnetic attraction between the second magnet and the fourth magnet (or between the fifth magnet 221 and the seventh magnet 231, and between the sixth magnet 222 and the eighth magnet 232), and then the second cover 20 is slid (or the position of the hanging rope is pulled) to the first connector 31 and the second connector 32, and then the first cover 10 is clamped on the second cover 20. When the data line needs to be used for charging or data transmission, the first cover body 10 and the second cover body 20 are manually detached, then the first shell 220 is detached from the second shell 230 (or the second shell 230 is detached from the first shell 220), and the first through hole 240 of the first shell 220 and the second through hole 250 of the second shell 230 are communicated into a straight line through the magnetic attraction force of the second magnet 223 and the fourth magnet 233, so that the data line is unfolded and stretched. When the data line needs to be replaced, the old data line only needs to be removed for replacement when the first shell 220 and the second shell 230 are detached, and the operation is convenient and easy.

In the above solution, the first cover 10 can be used for protecting the first connector 31 and the second connector 32 of the data cable, and the wire rewinding device can facilitate charging when the data cable connectors (including the first connector 31 and the second connector 32) are exposed by arranging the first cover 10 and the second cover 20 as detachable structures. On the other hand, by configuring the second cover 20 as a detachable structure, the data line can be conveniently and completely extended and straightened when the second magnet 223 and the fourth magnet 233 are magnetically connected, so that the charging distance between the two ends of the data line can be lengthened, and the data line can also be conveniently exchanged when the first housing 220 and the second housing 230 are detached.

The above description is only exemplary of the present disclosure and should not be taken as limiting the disclosure, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.