CN110752478B - Connecting wire assembly - Google Patents

Abstract

The invention discloses a connecting wire assembly. The connecting wire subassembly includes wire body end, interface end and connects the connecting piece between the two, and the connecting piece includes: the first connecting body is provided with a first end and a second end along the extending direction of the wire body in the wire body end, the first end is connected with the wire body end, and one end of the wire body end extends into the first connecting body; the conductor is embedded on the outer wall surface of the second end and connected to the wire body; the side, facing the second end, of the second connecting body is provided with an accommodating cavity for accommodating at least part of the first connecting body, and the side, facing away from the second end, of the second connecting body is connected to the interface end; the connecting rail is arranged on the inner wall surface of the accommodating cavity and extends along the extending direction of the second connecting body, one end, facing the interface end, of the connecting rail is connected with the welding plate in the interface end, and the conductor is arranged on the connecting rail in a sliding mode so that the first connecting body can slide relative to the second connecting body. The connecting wire subassembly can reduce or offset the crooked tensile influence of line body, can reduce or prevent that the connecting wire subassembly from damaging.

Description

Connecting wire assembly

Technical Field

The invention relates to the field of mobile terminals, in particular to a connecting line assembly.

Background

Patch cords, such as power and data cords, typically include a cord body end, an interface end, and a connector member connected between the cord body end and the interface end. The connector is usually fixed between the end of the wire body and the interface end, and the outside of the connector is wrapped with insulating rubber.

Taking the data line as an example, the line body of the line body end can be bent frequently in the use process, the connecting piece is fixed, the bent tension of the line body can cause the wire inside the connecting piece to deform, the wire is easy to break after multiple uses, and the data line is damaged. Correspondingly, when the interface end is connected to the intelligent device and then placed in the bag, the line body of the interface end is easy to bend to a large extent, the interface end and the interface end of the intelligent device are easy to damage, and the electric connection between the data line and the intelligent device is influenced. In addition, the direction of the interface end is usually fixed and unchangeable, and a user sometimes can transversely take and sometimes can longitudinally take when using the intelligent device, and the interface end with the fixed direction makes the user inconvenient to use.

In summary, the connecting wire in the prior art has the defects that the connecting member is easy to be damaged (caused by bending of the wire body) and the user is inconvenient to use (caused by fixing the direction of the interface end).

Disclosure of Invention

The invention aims to overcome the defect that a connecting wire in the prior art is easy to damage, and provides a connecting wire assembly.

The invention solves the technical problems through the following technical scheme:

a patch cord assembly comprising a cord body end, an interface end, and a connector member connected between said cord body end and said interface end, said connector member comprising:

the first connecting body is provided with a first end and a second end along the extending direction of the wire body in the wire body end, the first end is connected with the wire body end, and one end, connected with the first connecting body, in the wire body end extends into the first connecting body;

the conductor is embedded on the outer wall surface of the second end and connected to the wire body;

a second connecting body, wherein a side of the second connecting body facing the second end is provided with a containing cavity for containing at least part of the first connecting body, and a side of the second connecting body facing away from the second end is used for connecting to the interface end;

the connecting rail is arranged on the inner wall surface of the accommodating cavity, the connecting rail extends along the extending direction of the second connecting body, one end, facing the interface end, of the connecting rail is connected to the welding plate in the interface end, and the conductor is slidably arranged on the connecting rail so that the first connecting body can slide relative to the second connecting body.

In this scheme, the crooked messenger of the line body conductor can slide for connecting the rail to make first connector slide for the second connector, and then can reduce or offset the tensile influence of the crooked tensile of the line body, consequently can reduce or prevent that the connecting wire subassembly from damaging.

Preferably, the shape of the connecting rail is matched with the shape of the inner wall surface of the second connecting body.

In this scheme, adopt above-mentioned structural arrangement for the conductor can be along the extension orbit of the internal face of second connector for the slip of connecting the rail, and the first connector of being convenient for more slides for the second connector.

Preferably, the second end is a hemispherical structure, and the second connector is a hollow hemispherical structure.

In this scheme, adopt above-mentioned structural setting for first connector can realize multi-directional rotation for the second connector, thereby can satisfy user's multidirectional operation requirement, convenient to use.

Preferably, the wire body has a plurality of connecting wires, the number of conductors and the number of connecting rails are a plurality of, a plurality of conductors one-to-one correspond to the plurality of connecting wires, and a plurality of conductors one-to-one correspond to the connecting rails.

In this scheme, a connecting wire corresponds a conductor, and a conductor corresponds a connection rail, adopts above-mentioned setting, and when the line body was crooked, according to the crooked condition of different connecting wires, it can slide on the connection rail that corresponds to correspond the conductor, more is favorable to preventing that the connecting wire subassembly from damaging.

Preferably, the conductor is the ball column structure, the connection rail has the opening, works as the conductor cunning locate when the connection rail, the conductor inlays and locates the opening, just the bore of the opening of connection rail is less than the radius of conductor.

In this scheme, adopt above-mentioned structure setting, can enough make the conductor inlay reliably comparatively and locate the connection rail, do not influence the slip of conductor for the connection rail again.

Preferably, the outer wall surface of the first connecting body is sleeved with a first magnetic adsorption piece, the inner wall surface of the accommodating cavity is provided with a second magnetic adsorption piece, and the first connecting body and the second connecting body are magnetically attracted by the second magnetic adsorption piece through the first magnetic adsorption piece.

In this scheme, first connector and second connector are connected through the magnetism actuation, and it is comparatively convenient, reliable to connect.

Preferably, the first connecting body is embedded in the second connecting body.

In this scheme, first connector and second connector utilize the condition between both structural shape and size, realize embedding reliably and establish, and the structure is comparatively simple.

Preferably, when the accommodating cavity is used for accommodating the whole first connecting body, the outer peripheral surface of the second connecting body is coated with an insulating layer made of an insulating and elastic material;

when the accommodating cavity is used for accommodating the second end, the outer peripheral surface of the second connector and the outer peripheral surface of the first end are both coated with insulating layers made of insulating and elastic materials.

In this scheme, the insulating layer is made by the elasticity material for the insulating layer can enough prevent dust, waterproof in order to protect coupling assembling's major structure, can not influence the slip of first connector for the second connector again.

Preferably, the first connection body and the second connection body are made of an insulating material.

Preferably, the material of the conductor and the material of the connecting rail are both copper.

Preferably, the conductor is connected with the wire body in a welding mode, and the connecting rail is connected with the welding plate in a welding mode.

The positive progress effects of the invention are as follows:

in the connecting line assembly, the conductor can slide relative to the connecting rail due to the bending of the line body, so that the first connecting body slides relative to the second connecting body, the influence of the tensile force of the bending of the line body can be reduced or offset, and the damage of the connecting line assembly can be reduced or prevented.

Drawings

Fig. 1 is a schematic overall structure diagram of a connecting assembly according to a preferred embodiment of the present invention.

Fig. 2 is a schematic view illustrating a connection between a conductor and a connection rail in a connection assembly according to a preferred embodiment of the invention.

Description of reference numerals:

10 line body end

101 connecting line

20 interface end

30 connecting piece

301 first connection body

302 second connecting body

303 conductor

304 connecting rail

3041 opening

40 first magnetic attraction member

50 second magnetic adsorption piece

Detailed Description

The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.

The present embodiment discloses a patch cord 101 assembly, as shown in fig. 1-2, the patch cord 101 assembly includes a cord body end 10, a female end 20, and a connecting member 30 connected between the cord body end 10 and the female end 20, the connecting member 30 including a first connecting body 301, a conductor 303, a second connecting body 302, and a connecting rail 304. The first connecting body 301 has a first end and a second end along the extending direction of the wire body in the wire body end 10, the first end is connected to the wire body end 10, and the end of the wire body end 10 connected to the first connecting body 301 extends into the first connecting body 301. The conductor 303 is embedded on the outer wall surface of the second end, and the conductor 303 is connected to the wire body. The second connecting body 302 has a receiving cavity for receiving at least a portion of the first connecting body 301 on a side thereof facing the second end, and the second connecting body 302 has a side thereof facing away from the second end for connecting to the interface end 20. The connecting rail 304 is disposed on an inner wall surface of the accommodating cavity, the connecting rail 304 extends along an extending direction of the second connecting body 302, one end of the connecting rail 304 facing the interface end 20 is connected to a soldering board in the interface end 20, and the conductor 303 is slidably disposed on the connecting rail 304, so that the first connecting body 301 slides relative to the second connecting body 302.

In this embodiment, the bending of the wire body may cause the conductor 303 to slide relative to the connection rail 304, so that the first connection body 301 slides relative to the second connection body 302, and further the influence of the tensile force of the bending of the wire body can be reduced or cancelled, thereby reducing or preventing the damage of the connection line 101 components.

As will be understood with reference to fig. 1, the shape of the connecting rail 304 is adapted to the shape of the inner wall surface of the second connecting body 302. With such an arrangement, the sliding of the conductor 303 relative to the connecting rail 304 can follow the extending track of the inner wall surface of the second connecting body 302, which is more convenient for the first connecting body 301 to slide relative to the second connecting body 302.

As will be further appreciated with reference to fig. 1, the second end is a hemispherical structure and the second connector 302 is a hollow hemispherical structure. By the arrangement, the first connecting body 301 can rotate in multiple directions relative to the second connecting body 302, so that the requirement of a user on multiple-direction use can be met, and the use is convenient.

The wire body is provided with a plurality of connecting wires 101, the number of the conductors 303 and the number of the connecting rails 304 are multiple, the conductors 303 are connected to the connecting wires in a one-to-one correspondence manner, and the conductors 303 are slidably arranged on the connecting rails 304 in a one-to-one correspondence manner. A connecting wire 101 corresponds a conductor 303, and a conductor 303 corresponds a connection rail 304, adopts above-mentioned setting, and when the line body was crooked, according to the crooked condition of different connecting wires 101, it can slide on the connection rail 304 that corresponds to correspond conductor 303, more is favorable to preventing that connecting wire 101 subassembly from damaging.

Specifically, in the present embodiment, as shown in fig. 1, the wire body has four connection lines 101. In other alternative embodiments, the number of the wire bodies may be two, three or other numbers according to actual needs.

As shown in fig. 1 and fig. 2, the conductor 303 is a spherical structure, the connecting rail 304 has an opening 3041, when the conductor 303 is slidably disposed on the connecting rail 304, the conductor 303 is embedded in the opening 3041, and the aperture of the opening 3041 of the connecting rail 304 is smaller than the radius of the conductor 303. With this arrangement, the conductor 303 can be reliably fitted to the connection rail 304 without affecting the sliding of the conductor 303 with respect to the connection rail 304.

As will be further understood by referring to fig. 1, the first magnetic adsorbing member 40 is sleeved on the outer wall surface of the first connecting body 301, the second magnetic adsorbing member 50 is disposed on the inner wall surface of the accommodating cavity, and the first connecting body 301 and the second connecting body 302 are magnetically attracted by the first magnetic adsorbing member 40 and the second magnetic adsorbing member 50. The first connecting body 301 and the second connecting body 302 are connected through magnetic attraction, and connection is convenient and reliable.

In other alternative embodiments, the first connecting body 301 may be embedded in the second connecting body 302 to connect the first connecting body 301 and the second connecting body 302. The first connecting body 301 and the second connecting body 302 are reliably embedded by using the conditions between the structural shapes and the sizes of the two, and the structure is simple.

In other alternative embodiments, the first connecting body 301 and the second connecting body 302 may be connected in another other manner, specifically, when the accommodating cavity is used for accommodating the whole first connecting body 301, the outer peripheral surface of the second connecting body 302 is coated with an insulating layer made of an insulating and elastic material; when the receiving cavity is used for receiving the second end, the outer peripheral surface of the second connecting body 302 and the outer peripheral surface of the first end are both coated with insulating layers made of insulating and elastic materials. In this connection manner, the insulating layer is made of an elastic material, so that the insulating layer can protect the main structure of the connection assembly by preventing dust and water, and the sliding of the first connection body 301 relative to the second connection body 302 is not affected.

In addition, in the present embodiment, the first connection body 301 and the second connection body 302 are both made of an insulating material, such as plastic. The material of the conductor 303 and the material of the connection rail 304 are both copper. The conductor 303 is connected with the wire body in a welding mode, and the connecting rail 304 is connected with the welding plate in a welding mode.

In the connecting line 101 assembly, the bending of the line body can cause the conductor 303 to slide relative to the connecting rail 304, so that the first connecting body 301 slides relative to the second connecting body 302, and further the influence of the tensile force of the bending of the line body can be reduced or offset, and therefore, the damage of the connecting line 101 assembly can be reduced or prevented. The connection line 101 may be a data line used in a mobile terminal, or may be a power line.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (10)

1. A patch cord assembly comprising a cord body end, an interface end, and a connector member connected between the cord body end and the interface end, the connector member comprising:

the first connecting body is provided with a first end and a second end along the extending direction of the wire body in the wire body end, the first end is connected with the wire body end, and one end, connected with the first connecting body, in the wire body end extends into the first connecting body;

the conductor is embedded on the outer wall surface of the second end and connected to the wire body;

a second connecting body, wherein a side of the second connecting body facing the second end is provided with a containing cavity for containing at least part of the first connecting body, and a side of the second connecting body facing away from the second end is used for connecting to the interface end;

the connecting rail is arranged on the inner wall surface of the accommodating cavity, the connecting rail extends along the extending direction of the second connecting body, one end, facing the interface end, of the connecting rail is connected to the welding plate in the interface end, and the conductor is slidably arranged on the connecting rail so that the first connecting body slides relative to the second connecting body;

the conductor is the ball column structure, the connection rail has the opening, works as the conductor cunning is located when connecting the rail, the conductor inlays to be located the opening, just the bore of the opening of connection rail is less than the radius of conductor.

2. The patch cord assembly of claim 1, wherein said connection rail has a shape that is adapted to a shape of an interior wall surface of said second connector body.

3. The patch cord assembly of claim 1, wherein said second end is a hemispherical structure and said second connector is a hollow hemispherical structure.

4. The connecting wire assembly as claimed in claim 1, wherein the wire body has a plurality of connecting wires, the number of the conductors and the number of the connecting rails are plural, the plurality of conductors are connected to the plurality of connecting wires in a one-to-one correspondence, and the plurality of conductors are slidably disposed on the connecting rails in a one-to-one correspondence.

5. The connecting wire assembly as claimed in claim 1, wherein the first connector is sleeved on an outer wall surface of the first connector, the second connector is arranged on an inner wall surface of the accommodating cavity, and the first connector and the second connector are magnetically attracted by the first magnetic attraction member and the second magnetic attraction member.

6. The patch cord assembly of claim 1, wherein said first connector body is mounted to said second connector body.

7. The connecting wire assembly as claimed in claim 1, wherein when the receiving cavity is used for receiving the whole first connecting body, an insulating layer made of an insulating and elastic material is coated on the outer circumferential surface of the second connecting body;

when the accommodating cavity is used for accommodating the second end, the outer peripheral surface of the second connector and the outer peripheral surface of the first end are both coated with insulating layers made of insulating and elastic materials.

8. The patch cord assembly of claim 1, wherein said first connector body and said second connector body are each made of an insulating material.

9. The patch cord assembly of claim 1, wherein said conductor and said connecting rail are both copper.

10. The patch cord assembly of any one of claims 1-9, wherein said conductor is welded to said wire body and said connection rail is welded to said solder plate.

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