CN212849163U - Data line magnetic suction storage structure used between branch lines - Google Patents

Abstract

The utility model discloses a data line magnetic suction storage structure used between branch lines, the data line comprises a main line and at least two branch lines, one end of the branch line is connected with the main line through a branch seat, and the other end of the branch line is connected with an equipment plug; the magnet fixing sleeve and the magnets are arranged on each branching line, the magnet fixing sleeves are fixed on the line bodies of the branching lines, the magnets are arranged in the magnet fixing sleeves, opposite ends of the magnets on the adjacent branching lines are opposite poles, and the opposite poles of the magnets on the adjacent branching lines are attracted with each other through opposite pole ends of the two adjacent magnets, so that the magnet fixing sleeves are combined with each other to contain the branching lines. The utility model discloses a set up the fixed cover of magnet on the branch line, set up the magnet in the fixed cover of magnet, the data line when not using, perhaps only when a separated time uses, can make adjacent separated time combine together through the mutual actuation of magnet, reaches the effect of accomodating, avoids the data line in disorder at any time, not only more clean and tidy, uses when also being favorable to.

Description

Data line magnetic suction storage structure used between branch lines

Technical Field

The utility model relates to a data line product technical field, concretely relates to convenient data line of accomodating is inhaled to accessible magnetism.

Background

In the electronic industry, data lines are mainly used for charging and data transmission of electronic devices (such as smart phones) at present. In order to realize that one data line can be connected with equipment with different interfaces, people also invent data lines with one-to-two, one-to-three (such as TYPE-C plugs, LIGHT TNING plugs, MIRCO-USB plugs and the like) and even one-to-many data lines. However, such data lines usually have a certain length, which makes the data lines inconvenient to carry, and thus the data lines are often forgotten to be carried. When the portable data cable is carried, the portable data cable can be generally placed in a bag or a pocket, the use is inconvenient, the portable data cable is easy to scatter and wind, and particularly, the data cable with a plurality of plugs is easy to scatter and loose when being used or idle, and the portable data cable is untidy and can cause inconvenience for use.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to the above-mentioned defect of prior art, provide a simple structure, reasonable in design, convenient to use, can make the separated time avoid in disorder, realize the separated time data line magnetism that accomodates and inhale and accomodate the structure.

In order to solve the technical problem, the utility model adopts the following technical scheme: a magnetic suction containing structure of a data line used between branch lines is disclosed, the data line comprises a main line and at least two branch lines, one end of each branch line is connected with the main line through a branch line seat, and the other end of each branch line is connected with an equipment plug; the method is characterized in that: each branch line is provided with a magnetic attraction mechanism, and adjacent branch lines are mutually attracted and fixed through the magnetic attraction mechanism to realize storage; the magnetic attraction mechanism comprises a magnet fixing sleeve and magnets, wherein the magnet fixing sleeve is fixed on the wire body of the branch wires, the magnets are arranged in the magnet fixing sleeve, opposite ends of the magnets on the adjacent branch wires are opposite poles, and opposite pole ends of the two adjacent magnets attract each other to enable the magnet fixing sleeves to be combined with each other to accommodate the branch wires.

Furthermore, the magnet fixing sleeve comprises a wire sleeve and a magnet sleeve which are connected and fixed with each other; the thread sleeve is provided with a thread hole, and the separated thread penetrates through the thread hole to enable the thread sleeve to be sleeved on the separated thread; the magnet sleeve is provided with a fixing hole, and the magnet is fixed in the fixing hole and the ends of the magnets on the adjacent branch lines are opposite.

Furthermore, the magnet fixing sleeve is formed by injection molding of a plastic material, the cost is low, the wire sleeve and the magnet sleeve are of an integrated structure, and the wire sleeve and the magnet sleeve are adhered and fixed together.

Furthermore, the wire sleeve and the magnet sleeve are perpendicular to each other, the wire sleeve and the magnet sleeve are adhered to each other at respective middle positions, and if the separated wire is vertical, the magnet is transverse, so that the wire sleeve is compact and small in structure, and normal use is not influenced.

Furthermore, the wire sleeve is arranged on the branching line in a sleeving manner to form a structure capable of sliding along the branching line, so that the specific position of the magnet fixedly sleeved on the branching line can be adjusted, and the use requirement of a user can be met better.

Furthermore, a plurality of reinforcing ribs are arranged between the wire sleeve and the magnet sleeve, and the reinforcing ribs are respectively aligned with the wire sleeve and the magnet sleeve to form a reinforced connecting structure, so that the whole magnet fixing sleeve has higher structural strength; and the reinforcing ribs, the wire sleeve and the magnet sleeve are of an integrated structure and are integrally formed in an injection molding mode.

Furthermore, after the magnet is fixed in the fixing hole of the magnet sleeve, two ends of the magnet slightly protrude out of two ends of the magnet sleeve, so that the magnet can be attracted more directly.

Preferably, the main line is connected with a Universal Serial Bus (USB) interface, the branch lines comprise three branch lines, the three branch lines are respectively connected with a TYPE-C plug, a LIGHT TNING plug and a MIRCO-USB plug, and of course, other TYPEs of plugs or a plurality of branch lines can be selected according to actual needs.

The utility model discloses a set up the fixed cover of magnet on the branch line, set up the magnet in the fixed cover of magnet, the data line when not using, perhaps only when a separated time uses, can make adjacent separated time combine together through the mutual actuation of magnet, reaches the effect of accomodating, avoids the data line in disorder at any time, not only more clean and tidy, uses when also being favorable to.

Drawings

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

FIG. 2 is a view showing the structure of the magnetic attraction mechanism and the wire-separating mechanism;

FIG. 3 is an exploded view of the magnetic attraction mechanism;

FIG. 4 is an exploded view of the magnetic attraction mechanism at another angle.

In the figure, 1 is a magnet fixing sleeve, 11 is a wire sleeve, 12 is a magnet sleeve, 13 is a threading hole, 14 is a fixing hole, 15 is a reinforcing rib, 2 is a magnet, 3 is a branching wire, 4 is an equipment plug, 5 is a branching base, 6 is a main wire, and 7 is a universal USB interface.

Detailed Description

In this embodiment, referring to fig. 1 to 4, the data line magnetic suction storage structure for the branch lines includes a main line 6 and at least two branch lines 3, one end of each branch line 3 is connected to the main line 6 through a branch base 5, and the other end of each branch line 3 is connected to an equipment plug 4; each branching unit 3 is provided with a magnetic attraction mechanism, and adjacent branching units 3 are mutually attracted and fixed through the magnetic attraction mechanism to realize storage; the mechanism is inhaled to magnetism is including fixed cover 1 of magnet and magnet 2, fixed cover 1 of magnet is fixed on the line body of separated time 3, magnet 2 is installed in fixed cover 1 of magnet, and the looks remote site of magnet 1 on the adjacent separated time 3 is the opposite polarity magnetic pole (for example, the one end of a magnet is the S utmost point, the looks remote site of adjacent magnet then is the N utmost point), attract each other through the opposite polarity magnetic pole end of two adjacent magnets, make fixed cover of magnet combine each other in order to accomodate each separated time, in addition, also can adopt magnet and iron to carry out the complex mode, for example a magnet is joined in marriage to iron, perhaps middle magnet, both sides iron plate.

The magnet fixing sleeve 1 comprises a wire sleeve 11 and a magnet sleeve 12 which are connected and fixed with each other; the thread sleeve 11 is provided with a thread hole 13, and the thread separation 3 penetrates through the thread hole 13 to enable the thread sleeve 11 to be sleeved on the thread separation 3; the magnet sleeve 12 is provided with a fixing hole 14, the magnet 2 is fixed in the fixing hole 14, and the ends of the magnet 2 on the adjacent branch lines 3 are opposite to each other so as to be convenient for attraction.

The magnet fixing sleeve 1 is formed by injection molding of a plastic material and is low in cost, and the wire sleeve 11 and the magnet sleeve 12 are of an integral structure and are fixedly adhered together.

The wire sleeve 11 and the magnet sleeve 12 are perpendicular to each other and are adhered to each other at respective middle positions, and if the wire dividing 3 is vertical, the magnet 2 is horizontal, so that the structure is compact and small, and normal use is not influenced.

The wire sleeve 11 is mounted on the branch line 3 in a sleeving manner to form a structure capable of sliding along the branch line, so that the specific position of the magnet fixing sleeve 1 on the branch line 3 can be adjusted, and the use requirement of a user can be met better.

A plurality of reinforcing ribs 15 are arranged between the wire sleeve 11 and the magnet sleeve 12, and the reinforcing ribs 15 respectively form a reinforced connection structure for the wire sleeve 11 and the magnet sleeve 12, so that the whole magnet fixing sleeve 1 has higher structural strength; the reinforcing rib 15, the wire sleeve 11 and the magnet sleeve 12 are integrated into a whole and are integrally formed by injection molding.

After the magnet 2 is fixed in the fixing hole 14 of the magnet sleeve 12, two ends of the magnet slightly protrude out of two ends of the magnet sleeve 12, which is beneficial to attracting the magnet 2 more directly.

The main line 6 is connected with a Universal Serial Bus (USB) interface 7, the branch lines 3 comprise three branch lines 3, the three branch lines 3 are respectively connected with a TYPE-C plug, a LIGHT TNING plug and a MIRCO-USB plug, and of course, other TYPEs of plugs or a plurality of branch lines can be selected according to actual needs.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (8)

1. A magnetic suction containing structure of a data line used between branch lines is disclosed, the data line comprises a main line and at least two branch lines, one end of each branch line is connected with the main line through a branch line seat, and the other end of each branch line is connected with an equipment plug; the method is characterized in that: each branch line is provided with a magnetic attraction mechanism, and adjacent branch lines are mutually attracted and fixed through the magnetic attraction mechanism to realize storage; the magnetic attraction mechanism comprises a magnet fixing sleeve and magnets, wherein the magnet fixing sleeve is fixed on the wire body of the branch wires, the magnets are arranged in the magnet fixing sleeve, opposite ends of the magnets on the adjacent branch wires are opposite poles, and opposite pole ends of the two adjacent magnets attract each other to enable the magnet fixing sleeves to be combined with each other to accommodate the branch wires.

2. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 1, wherein: the magnet fixing sleeve comprises a wire sleeve and a magnet sleeve which are connected and fixed with each other; the thread sleeve is provided with a thread hole, and the separated thread penetrates through the thread hole to enable the thread sleeve to be sleeved on the separated thread; the magnet sleeve is provided with a fixing hole, and the magnet is fixed in the fixing hole and the ends of the magnets on the adjacent branch lines are opposite.

3. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 2, wherein: the magnet fixing sleeve is formed by injection molding of a plastic material, the wire sleeve and the magnet sleeve are of an integral structure, and the wire sleeve and the magnet sleeve are adhered and fixed together.

4. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 3, wherein: the wire sleeve and the magnet sleeve are perpendicular to each other, and are adhered to each other at respective middle positions.

5. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 2, wherein: the wire sleeve is arranged on the wire dividing part in a sleeving manner to form a structure capable of sliding along the wire dividing part.

6. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 4, wherein: a plurality of reinforcing ribs are arranged between the wire sleeve and the magnet sleeve, the reinforcing ribs are respectively aligned with the wire sleeve and the magnet sleeve to form a reinforced connecting structure, and the reinforcing ribs, the wire sleeve and the magnet sleeve are of an integrated structure and are integrally formed in an injection molding mode.

7. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 2, wherein: and after the magnet is fixed in the fixing hole of the magnet sleeve, two ends of the magnet slightly protrude out of two ends of the magnet sleeve.

8. The magnetic attraction receiving structure for the data wire between the branch lines as claimed in claim 1, wherein: the main line is connected with a Universal Serial Bus (USB) interface, the branch lines comprise three branch lines, and the three branch lines are respectively connected with a TYPE-C plug, a LIGHT TNING plug and a MIRCO-USB plug.

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