CN113753684A

CN113753684A - Wire storage device

Info

Publication number: CN113753684A
Application number: CN202010485641.6A
Authority: CN
Inventors: 邹万民
Original assignee: Suzhou Yuange Electronic Co Ltd
Current assignee: Suzhou Yuange Electronic Co Ltd
Priority date: 2020-06-01
Filing date: 2020-06-01
Publication date: 2021-12-07

Abstract

The present invention provides a wire storage device, which includes at least two magnetic adsorption units and at least two housings. The magnetic adsorption unit includes a first magnetic body and a second magnetic body, and the inner sides of the first magnetic body and the second magnetic body are magnetically attracted to each other and movably arranged on the outer side of the wire body; the outer casing includes a first shell, The second casing and the active area, the first casing and the second casing are combined with each other and fixed to the wire body and cover the magnetic adsorption unit, so that the magnetic adsorption unit is movably arranged in the active area. The adsorption unit automatically rotates to the magnetic pole that can be magnetically adsorbed, and the outer side of the first magnetic body and the outer side of the second magnetic body are magnetically attracted to each other through the casing to accommodate the wire body. In this way, the magnetic adsorption unit and the casing can be arranged on the wire body in a self-external manner without damaging the wire body, so as to achieve the effect of easy assembly and use.

Description

Wire storage device

Technical Field

The present invention provides a wire storage device, and more particularly, to a wire storage device that is easy to assemble and use.

Background

Since a general wire has a certain volume and length, it is difficult to store or arrange the wire. Therefore, when manufacturing the wire rod, a person skilled in the art will embed a plurality of magnets in the insulating outer covering of the wire rod in a fixed manner, so as to achieve the purpose of accommodating the wire rod by utilizing the magnetic attraction among the magnets.

However, in the above-described manner of accommodating the wire rods, since the magnets are embedded in the insulating outer covering of the wire rods when the wire rods are manufactured, the user cannot use the magnets by attaching them to various wire rods. Because the magnets are fixedly embedded in the insulating outer cover of the wire rod, after the wire rod is wound, the magnets can not perform magnetic adsorption along the winding of the wire rod because the corresponding magnets have the same magnetic poles to cause magnetic repulsion, and the magnets can perform magnetic adsorption with different magnetic poles only after the magnets and the wire rod rotate, so that the wire rod can not be smoothly stored, and the wire rod is wound or deformed after being stored.

Disclosure of Invention

In view of the above-mentioned conventional technologies, the inventor has developed a wire storage device, which can be installed on a wire body in a self-external connection manner as required without damaging the wire body, so as to achieve the purpose of easy assembly and use.

To achieve the above and other objects, the present invention provides a wire storage device for storing a wire body, the wire storage device includes at least two magnetic attraction units and at least two housings. The magnetic adsorption unit comprises a first magnetic body and a second magnetic body respectively, and the inner side of each first magnetic body and the inner side of each second magnetic body are mutually magnetically adsorbed, so that the magnetic adsorption unit is movably arranged on the outer side of the wire body; the shell comprises a first shell, a second shell and a movable area respectively, each first shell and each second shell are mutually combined and fixed on the wire body and wrap each magnetic adsorption unit, each magnetic adsorption unit is movably arranged in the movable area, after the wire body is wound, each magnetic adsorption unit automatically rotates to a magnetic pole capable of magnetic adsorption on the wire body respectively, and each magnetic adsorption unit is magnetically adsorbed by penetrating through each shell on the outer side of the first magnetic attraction body and the outer side of the second magnetic attraction body so as to accommodate the wire body.

In the above-mentioned wire storage device, the first magnetic attraction body and the second magnetic attraction body are magnets, the inner side of the first magnetic attraction body is provided with a first bridging portion, the inner side of the second magnetic attraction body is provided with a second bridging portion, the first bridging portion of each first magnetic attraction body and the second bridging portion of each second magnetic attraction body correspond to the outer side of the wire body, and each first bridging portion and each second bridging portion are slightly larger than the outer diameter of the wire body, so that after the inner side of each first magnetic attraction body and the inner side of each second magnetic attraction body are magnetically attracted to each other, each magnetic attraction unit is movably arranged on the outer side of the wire body.

In the above-mentioned wire storage device, the two ends of the first magnetic attraction body are respectively provided with an S magnetic pole portion and an N magnetic pole portion, the two ends of the second magnetic attraction body are respectively provided with an N magnetic pole portion and an S magnetic pole portion, so that the S magnetic pole portion of each first magnetic attraction body and the N magnetic pole portion of each second magnetic attraction body are magnetically attracted to each other, and the N magnetic pole portion of each first magnetic attraction body and the S magnetic pole portion of each second magnetic attraction body are magnetically attracted to each other, so that the inner side or the outer side of each first magnetic attraction body and the inner side or the outer side of each second magnetic attraction body are magnetically attracted to each other.

In the above-mentioned wire storage device, two ends of each first housing respectively have a first clamping portion, and two ends of each second housing respectively have a second clamping portion, so that after the first housings and the second housings are combined with each other, the first clamping portions and the second clamping portions are fixed to the outer side of the wire body.

In the above-mentioned wire rod receiving device, the inner side of each first casing has a first concave portion, the inner side of each second casing has a second concave portion, so that after each first casing and each second casing are combined with each other, each first concave portion and each second concave portion form the active region, and each magnetic adsorption unit is movably arranged in the active region.

In the above-mentioned wire accommodating device, each of the shells has an assembling portion, and each of the first shells and each of the second shells are mutually combined and fixed to the wire body through the assembling portion.

In the above-mentioned wire rod storage device, each of the assembling parts is a snap structure, a sliding groove structure, a screw connection structure or an insertion structure.

Therefore, the wire storage device can arrange the magnetic adsorption unit and the shell on the wire body in a self-external connection mode according to requirements without damaging the wire body, thereby achieving the purpose of easy assembly and use.

Drawings

Fig. 1 is an external view of a preferred embodiment of the present invention.

FIG. 2 is an exploded view of the preferred embodiment of the present invention.

FIG. 3 is a first schematic diagram illustrating a usage status of the preferred embodiment of the present invention.

FIG. 4 is a second schematic diagram illustrating a usage status of the preferred embodiment of the invention.

FIG. 5 is a third schematic view of the preferred embodiment of the present invention in a use state.

Description of the symbols

1 wire material body

2 magnetic adsorption unit

21 first magnetic attraction body

211 first bridging portion

212S magnetic pole part

213N magnetic pole part

22 second magnetic attraction body

221 second bridging part

222N magnetic pole part

223S magnetic pole part

3 outer cover

31 first casing

311 first clamping part

312 first recess

32 second housing

321 second clamping part

322 second recess

33 active region

34 assembly part

341 hook

342 card slot

Detailed Description

For a fuller understanding of the objects, features and advantages of the present invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings, in which:

please refer to fig. 1 to 5, as shown: the invention provides a wire storage device, which can be used for storing a wire body 1 and comprises at least two magnetic adsorption units 2 and at least two shells 3.

The wire body 1 can be various transmission lines or charging lines.

The magnetic attraction unit 2 includes a first magnetic attraction body 21 and a second magnetic attraction body 22, and the inner side of each first magnetic attraction body 21 and the inner side of each second magnetic attraction body 22 are magnetically attracted to each other, so that the magnetic attraction unit 2 is movably disposed on the outer side of the wire body 1.

The housing 3 includes a first housing 31, a second housing 32 and an active area 33, each of the first housing 31 and each of the second housing 32 are fixed to the wire body 1 in combination with each other and cover each of the magnetic adsorption units 2, and each of the magnetic adsorption units 2 is movably disposed in the active area 33, so that after the wire body 1 is wound, each of the magnetic adsorption units 2 automatically rotates to a magnetic pole capable of magnetic adsorption on the wire body 1, and each of the magnetic adsorption units 2 magnetically adsorbs each other through each of the housings 3 from the outside of the first magnetic attraction body 21 to the outside of the second magnetic attraction body 22, so as to store the wire body 1.

When assembling, the number of the magnetic adsorption units 2 and the housing 3 can be selected according to the actual length of the wire body 1 or the actual application requirement; after the inner sides of the first magnetic bodies 21 and the second magnetic bodies 22 correspond to the wire body 1, the magnetic attraction units 2 are magnetically attracted to each other, so that the magnetic attraction units 2 are movably disposed on the outer side of the wire body 1, and then the first shells 31 and the second shells 32 of the housing 3 are mutually combined and fixed to the wire body 1, so that the magnetic attraction units 2 are covered by the first shells 31 and the second shells 32, and the magnetic attraction units 2 are movably disposed in the movable area 33. Thus, the magnetic adsorption unit 2 and the housing 3 can be arranged on the wire body 1 in a self-external connection manner as required without damaging the wire body 1, thereby achieving the effect of easy assembly.

When the wire body 1 is to be stored, the wire body 1 is wound, and then the adjacent or non-adjacent magnetic adsorption units 2 are magnetically adsorbed by the outer sides of the first magnetic attraction body 21 and the second magnetic attraction body 22 through the shells 3 to store the wire body 1, for example, in the form of fig. 3 or 4; in addition, the wire body 1 can be stored as a pendant or a hanging ornament (not shown) according to the requirement; so that the invention can better meet the requirement of practical application.

When the magnetic adsorption units 2 to be magnetically adsorbed in the storage process are the same magnetic poles, the magnetic adsorption units 2 are respectively rotated on the wire body 1 and in the active area 33 by the aid of magnetic repulsion caused by the same magnetic poles (as shown in fig. 5), so that the magnetic adsorption units 2 are rotated to the magnetic poles capable of being magnetically adsorbed by themselves, and the magnetic adsorption units 2 are magnetically adsorbed by the shells 3 on the outer sides of the first magnetic attraction body 21 and the second magnetic attraction body 22 to store the wire body 1, so that winding or deformation of the wire body 1 after storage is avoided, and the wire body 1 is easy to use.

In an embodiment of the invention, the first magnetic attraction body 21 and the second magnetic attraction body 22 are magnets, the first bridging portion 211 is disposed on the inner side of the first magnetic attraction body 21, the second bridging portion 221 is disposed on the inner side of the second magnetic attraction body 22, the first bridging portion 211 of each first magnetic attraction body 21 and the second bridging portion 221 of each second magnetic attraction body 22 correspond to the outer side of the wire body 1, and each first bridging portion 211 and each second bridging portion 221 are slightly larger than the outer diameter of the wire body 1, so that after the inner side of each first magnetic attraction body 21 and the inner side of each second magnetic attraction body 22 are magnetically attracted to each other, each magnetic attraction unit 2 is movably disposed on the outer side of the wire body 1.

Thus, when the magnetic attraction units 2 are assembled, the first bridging portion 211 of each first magnetic attraction body 21 and the second bridging portion 221 of each second magnetic attraction body 22 can correspond to the outer side of the wire body 1, and the inner side of each first magnetic attraction body 21 and the inner side of each second magnetic attraction body 22 are magnetically attracted to each other, so that the magnetic attraction units 2 are movably disposed on the outer side of the wire body 1.

In addition, when the magnetic adsorption units 2 to be magnetically adsorbed are the same magnetic pole during the storage process, the magnetic adsorption units 2 are respectively rotated on the wire body 1 and in the active area 33 by utilizing the magnetic repulsion caused by the same magnetic pole, so that the magnetic adsorption units 2 are rotated to the magnetic pole capable of being magnetically adsorbed by themselves, and further the magnetic adsorption units 2 are magnetically adsorbed by the outer sides of the first magnetic attraction body 21 and the second magnetic attraction body 22 through the shells 3 to store the wire body 1, thereby avoiding the winding or deformation of the wire body 1 after storage, and achieving the effect of easy use.

In addition, since the first magnetic attraction body 21 and the second magnetic attraction body 22 are magnets, when the magnetic attraction unit 2 is movably disposed outside the wire body 1, the characteristics of the magnets can be utilized to store the wire body 1, and the wire body 1 can have the noise-proof and crosstalk-proof effects when in use; so that the invention can better meet the requirement of practical application.

In an embodiment of the present invention, the first magnetic body 21 has an S magnetic pole portion 212 and an N magnetic pole portion 213 at two ends thereof, the second magnetic body 22 has an N magnetic pole portion 222 and an S magnetic pole portion 223 at two ends thereof, so that the S magnetic pole portion 212 of each first magnetic body 21 and the N magnetic pole portion 222 of each second magnetic body 22 are magnetically attracted to each other, and the N magnetic pole portion 213 of each first magnetic body 21 and the S magnetic pole portion 223 of each second magnetic body 22 are magnetically attracted to each other.

Thus, when each magnetic attraction unit 2 is assembled, the first bridging portion 211 of each first magnetic attraction body 21 and the second bridging portion 221 of each second magnetic attraction body 22 can be made to correspond to each other on the outer side of the wire body 1, the inner side of one end of each first magnetic attraction body 21 is magnetically attracted to the inner side of one end of each second magnetic attraction body 22 by the S magnetic pole portion 212 and the N magnetic pole portion 222, and the inner side of the other end of each first magnetic attraction body 21 is magnetically attracted to the inner side of the other end of each second magnetic attraction body 22 by the N magnetic pole portion 213 and the S magnetic pole portion 223, so that the magnetic attraction unit 2 is movably disposed on the outer side of the wire body 1.

When the wire body 1 is to be stored and the magnetic attraction units 2 are magnetically attracted to each other through the housings 3, the S-pole portion 212 and the N-pole portion 213 are magnetically attracted to each other from the outer sides of the two ends of the first magnetic attraction body 21 and the N-pole portion 222 and the S-pole portion 223 are magnetically attracted to each other from the outer sides of the two ends of the second magnetic attraction body 22, so as to store the wire body 1; when the magnetic attraction units 2 are accommodated in the accommodating process, because the S magnetic pole portion 212 and the N magnetic pole portion 213 of the first magnetic attraction body 21 correspond to each other (or because the N magnetic pole portion 222 and the S magnetic pole portion 223 of the second magnetic attraction body 22 correspond to each other), the magnetic attraction units 2 are respectively rotated on the wire body 1 and in the active area 33 by the magnetic repulsion caused by the same magnetic pole of the corresponding first magnetic attraction body 21, so that the magnetic attraction units 2 are rotated to the magnetically attractable magnetic pole by the magnetic attraction units 2, that is, the outer sides of the two ends of the first magnetic attraction body 21 are magnetically attracted to the outer sides of the two ends of the second magnetic attraction body 22 by the S magnetic pole portion 212 and the N magnetic pole portion 213, and the outer sides of the first magnetic attraction body 21 and the second magnetic attraction body 22 are magnetically attracted to each other through the housing 3, so as to store the wire body 1, and avoid the winding or deformation of the wire body 1 after being stored, thereby achieving the effect of easy use.

In an embodiment of the present invention, two ends of each first housing 31 are respectively provided with a first clamping portion 311, two ends of each second housing 32 are respectively provided with a second clamping portion 321, after each first housing 31 and each second housing 32 are combined with each other, each first clamping portion 311 and each second clamping portion 321 are fixed on the outer side of the wire body 1, each first housing 31 and each second housing 32 cover each magnetic adsorption unit 2, and each magnetic adsorption unit 2 is movably disposed in the movable region 33. Thus, the magnetic adsorption unit 2 and the housing 3 can be arranged on the wire body 1 in a self-external connection manner as required without damaging the wire body 1, thereby achieving the effect of easy assembly.

In an embodiment of the invention, the inner side of each first housing 31 has a first concave portion 312, the inner side of each second housing 32 has a second concave portion 322, so that after each first housing 31 and each second housing 32 are combined with each other, each first concave portion 312 and each second concave portion 322 form the active region 33, and each magnetic adsorption unit 2 is movably disposed in the active region 33. Thus, when the magnetic adsorption units 2 to be magnetically adsorbed in the storage process are the same magnetic poles, the magnetic adsorption units 2 are respectively rotated on the wire body 1 and in the active area 33 by utilizing the magnetic repulsion caused by the same magnetic poles, so that the magnetic adsorption units 2 are rotated to the magnetic poles capable of being magnetically adsorbed by themselves, and further, the magnetic adsorption units 2 are mutually magnetically adsorbed by the outer side of the first magnetic attraction body 21 and the outer side of the second magnetic attraction body 22 through the shells 3 to store the wire body 1, thereby avoiding the winding or deformation of the wire body 1 after storage, and achieving the effect of easy use.

In an embodiment of the present invention, each of the shells 3 has an assembling portion 34, each of the first shells 31 and each of the second shells 32 are fixed to the wire body 1 by the assembling portion 34, each of the first shells 31 and each of the second shells 32 cover each of the magnetic absorption units 2, and each of the magnetic absorption units 2 is movably disposed in the movable region 33. Thus, the magnetic adsorption unit 2 and the housing 3 can be arranged on the wire body 1 in a self-external connection manner as required without damaging the wire body 1, thereby achieving the effect of easy assembly.

In an embodiment of the present invention, each of the assembling portions 34 may be a snap structure, a sliding groove structure, a screw structure or an inserting structure; in the present invention, the embodiment of the invention is a snap structure, and when the present invention is used, the two ends of each first shell 31 are respectively provided with a snap hook 341, and the two ends of each second shell 32 are respectively provided with a snap groove 342, the snap hook 341 and the snap groove 342 form the assembly portion 34, so that each first shell 31 and each second shell 32 are mutually combined by the snap hook 341 and the snap groove 342, the housing 3 is fixed on the wire body 1, each first shell 31 and each second shell 32 cover each magnetic adsorption unit 2, and each magnetic adsorption unit 2 is movably arranged in the active region 33. Thus, the magnetic adsorption unit 2 and the housing 3 can be arranged on the wire body 1 in a self-external connection manner as required without damaging the wire body 1, thereby achieving the effect of easy assembly.

While the invention has been described in terms of preferred embodiments, it will be understood by those skilled in the art that the examples are intended in a descriptive sense only and not for purposes of limitation. It should be noted that all changes and substitutions equivalent to the embodiments are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention should be determined by the claims.

Claims

1. A wire storage device for receiving a wire body, characterized in that the wire storage device comprises:

At least two magnetic adsorption units, which respectively include a first magnetic body and a second magnetic body, the inner side of each first magnetic body and the inner side of each second magnetic body are magnetically attracted to each other, so that the magnetic adsorption The unit is movable on the outside of the wire body; and

At least two shells respectively include a first shell, a second shell and an active area, each of the first shells and each of the second shells are combined with each other to be fixed on the wire body and cover each of the magnetic adsorption units , and each of the magnetic adsorption units is movably arranged in the active area, so that after the wire body is wound, each of the magnetic adsorption units is rotated on the wire body to a magnetic pole that can be magnetically adsorbed, so that each of the magnetic adsorption units The unit uses the outer side of the first magnetic body and the outer side of the second magnetic body to magnetically attract each other through each of the casings, so as to accommodate the wire body.

2 . The wire storage device of claim 1 , wherein the first magnetic body and the second magnetic body are magnets, the inner side of the first magnetic body has a first bridging portion, and the second magnetic body The inner side of the body has a second bridging portion, the first bridging portion of each of the first magnetic bodies and the second bridging portion of each of the second magnetic bodies correspond to each other on the outer side of the wire body, and each of the first bridging portions of the first magnetic body corresponds to each other. The bridging portion and each of the second bridging portions are slightly larger than the outer diameter of the wire body. The unit is movably arranged on the outer side of the wire body.

3 . The wire storage device of claim 2 , wherein both ends of the first magnetic body have an S magnetic pole portion and an N magnetic pole portion respectively, and both ends of the second magnetic body respectively have an N magnetic pole portion and an S magnetic pole portion, 4 . The S magnetic pole portion of each of the first magnetic bodies and the N magnetic pole portion of each of the second magnetic bodies are magnetically attracted to each other, and the N magnetic pole portion of each of the first magnetic bodies and the S magnetic pole of each of the second magnetic bodies The parts are magnetically attracted to each other, so that the inner or outer side of each of the first magnetic bodies and the inner or outer side of each of the second magnetic bodies are magnetically attracted to each other.

4 . The wire storage device of claim 1 , wherein both ends of each of the first casings have first clamping portions respectively, and both ends of each of the second casings respectively have second clamping portions, so that each After the first casing and each of the second casings are combined with each other, each of the first clamping parts and each of the second clamping parts is fixed to the outer side of the wire body.

5 . The wire storage device of claim 1 , wherein the inner side of each of the first casings has a first concave portion, and the inner side of each of the second casings has a second concave portion, so that each of the first casings and the After the second shells are combined with each other, each of the first concave portions and each of the second concave portions form the active area, and each of the magnetic adsorption units is movably arranged in the active area.

6 . The wire storage device as claimed in claim 1 , wherein each of the housings has an assembly portion, and each of the first casings and each of the second casings are combined and fixed to the wire body through the assembly portion. 7 .

7 . The wire storage device according to claim 6 , wherein each of the assembling parts is a snap structure, a chute structure, a screw structure or a plug structure. 8 .