CN219268086U - Spliced data line - Google Patents

Abstract

The utility model relates to the technical field of mobile phone data lines, in particular to a spliced data line. A spliced data line comprises a first line body component, a second line body component, at least one third line body component, a first USB connector and a second USB connector; one end of the first wire body component is detachably connected with the first USB connector, and the other end of the first wire body component is detachably connected with one end of the third wire body component; one end of the second wire body component is detachably connected with the second USB connector, and the other end of the second wire body component is detachably connected with the other end of the third wire body component; the first USB connector is any one of a USBA Type male connector and a Type-C connector; the second USB joint is any one of a Type-C joint, a MircoUSB joint and a lighting joint. According to the spliced data line, a user can adjust the length of the data line according to actual requirements, and the first USB connector and the second USB connector can be replaced to adapt to USB sockets of different types, so that the spliced data line is high in practicability.

Description

Spliced data line

Technical Field

The utility model relates to the technical field of mobile phone data lines, in particular to a spliced data line.

Background

The data line is an electronic accessory for charging and data transmission of electronic products, and has become an indispensable part in life of people with the development of smart phones and other portable mobile electronic devices.

One end of a common data line is a USB male port, and the other end is a type of interface, and in the use process, a user needs to select different data lines according to the actual situation of the electronic equipment. When data transmission is performed on different electronic devices, the whole data line needs to be replaced. In addition, the general data line is integrated fixed, and the user can not change the length of the data line, and the user often needs to prepare a plurality of data lines with different lengths according to the use scene, so that the practicability is not strong, and the use cost of the user is increased.

The above drawbacks are to be overcome by those skilled in the art.

Disclosure of Invention

In order to solve the above problems in the prior art, the present utility model provides a data line which can be assembled and spliced by a user and has a changeable length.

In order to achieve the above purpose, the main technical scheme adopted by the utility model comprises the following steps:

a spliced data line comprises a first line body component, a second line body component, at least one third line body component, a first USB connector and a second USB connector;

one end of the first wire body component is detachably connected with the first USB connector, and the other end of the first wire body component is detachably connected with one end of the third wire body component; one end of the second wire body component is detachably connected with the second USB connector, and the other end of the second wire body component is detachably connected with the other end of the third wire body component.

One end of the first wire body component is detachably connected with the first USB connector, the other end of the first wire body component is detachably connected with one end of the third wire body component, one end of the second wire body component is detachably connected with the second USB connector, the other end of the second wire body component is detachably connected with the other end of the third wire body component, and the data wire comprises at least one third wire body component, so that a user can adjust and change the length of the data wire by adding or reducing the third wire body component; the user can also freely change first USB joint, second USB joint for the data line can be applicable to the USB socket of different grade type, and the practicality is strong.

Further, the first wire body component comprises a first wire body, a first interface arranged at one end of the first wire body and a second interface arranged at the other end of the first wire body;

the second interface is provided with a second electric contact concave component, and one side of the second interface far away from the first wire body is provided with a second magnetic element; the first USB connector comprises a first connector body, a third Pogo-Pin connecting column assembly arranged on one side of the first connector body, and an eighth magnetic element arranged on one side of the first connector body, on which the third Pogo-Pin connecting column assembly is arranged; the magnetism of the eighth magnetic element is opposite to that of the second magnetic element, and the second interface is in adsorption connection with the first connector body through the second magnetic element and the eighth magnetic element; the third Pogo-Pin connection Pin assembly is inserted into the corresponding second electrical contact recess assembly. Preferably, a third bump is mounted on one side of the first connector body, and the third Pogo-Pin connecting column assembly is mounted on the third bump; the second interface is provided with a first inserting cavity, and the second electric contact concave component is arranged in the first inserting cavity. Under the magnetic adsorption effect, the first connector body and the second connector can be tightly spliced together, so that the stability of data connection of the data line is ensured.

Preferably, a first interface in the first wire body component is provided with a first electric contact concave component, and one side of the first interface far away from the first wire body is provided with a first magnetic element;

the third wire body component comprises a third wire body, a fifth interface arranged at one end of the third wire body and a sixth interface arranged at the other end of the third wire body; the sixth interface is provided with a second Pogo-Pin connecting column assembly, and one side of the sixth interface far away from the third wire body is provided with a sixth magnetic element; the magnetism of the sixth magnetic element is opposite to that of the first magnetic element, and the sixth interface and the first interface are in adsorption connection with the sixth magnetic element through the first magnetic element; the second Pogo-Pin connecting column component is inserted into the corresponding first electric contact concave component. Preferably, a second bump is mounted on a side of the sixth interface away from the third wire body, and the second Pogo-Pin connecting column assembly is mounted on the second bump; the first interface is provided with a second inserting cavity, and the first electric contact concave component is arranged in the second inserting cavity.

Under the magnetic adsorption effect, the first interface and the sixth interface can be tightly spliced together, so that the stability of data connection of the data line is ensured.

Preferably, a fifth interface of the third wire body component is provided with a fourth electric contact concave component, and a fifth magnetic element is arranged at one side of the fifth interface far away from the third wire body;

the second wire body component comprises a second wire body, a third interface arranged at one end of the second wire body and a fourth interface arranged at the other end of the second wire body; the fourth interface is provided with a first Pogo-Pin connecting column assembly, and one side of the fourth interface far away from the second wire body is provided with a fourth magnetic element; the magnetism of the fourth magnetic element is opposite to that of the fifth magnetic element, and the fifth interface and the fourth interface are in adsorption connection with the fifth magnetic element through the fourth magnetic element; the first Pogo-Pin connecting column assembly is inserted into the corresponding fourth electric contact concave position assembly;

the magnetic properties of the fifth magnetic element on the fifth interface are opposite to the magnetic properties of the sixth magnetic element on the sixth interface; the second Pogo-Pin connecting column component is matched with the fourth electric contact concave component.

Preferably, a first bump is arranged on one side of the fourth interface far away from the second wire body, and the first Pogo-Pin connecting column component is arranged on the first bump; the fifth interface is provided with a third inserting cavity, and the fourth electric contact concave component is arranged in the third inserting cavity. Under the magnetic adsorption effect, the fourth interface and the fifth interface can be tightly spliced together, so that the stability of data connection of the data line is ensured.

Preferably, a third electrical contact concave component is arranged at a third interface of the second wire body component, and a third magnetic element is arranged at one side of the third interface far away from the second wire body;

the second USB connector comprises a second connector body, a fourth Pogo-Pin connecting column assembly arranged on one side of the second connector body, and a seventh magnetic element arranged on one side of the second connector body, on which the fourth Pogo-Pin connecting column assembly is arranged; the magnetism of the seventh magnetic element is opposite to that of the third magnetic element, and the third interface and the second connector body are in adsorption connection with the seventh magnetic element through the third magnetic element; the fourth Pogo-Pin connecting column component is inserted into the corresponding third electric contact concave component. Preferably, a fourth bump is mounted on one side of the second connector body, and the fourth Pogo-Pin connecting column assembly is mounted on the fourth bump; the third interface is provided with a fourth inserting cavity, and the third electric contact concave component is arranged in the fourth inserting cavity.

Under the magnetic adsorption effect, the second connector body and the third interface can be tightly spliced together, so that the stability of data connection of the data line is ensured.

Further, the first USB connector is any one of a USBA Type male connector and a Type-C connector; the second USB joint is any one of a Type-C joint, a MircoUSB joint and a lighting joint.

Compared with the prior art, the utility model has the following beneficial effects:

according to the spliced data line, one end of the first line body component is detachably connected with the first USB connector, the other end of the first line body component is detachably connected with one end of the third line body component, one end of the second line body component is detachably connected with the second USB connector, the other end of the second line body component is detachably connected with the other end of the third line body component, the data line comprises at least one third line body component, a user can adjust the length of the data line by adding or subtracting the third line body component, the data line can be suitable for various use situations, the user does not need to prepare a plurality of data lines with different lengths, and the use cost is reduced; the user can also freely change first USB joint, second USB joint for the data line can be applicable to the USB socket of different grade type, and the practicality is strong.

Drawings

FIG. 1 is a schematic diagram of a spliced data line according to an embodiment of the present utility model;

fig. 2 is an exploded view of a splice-able data line according to an embodiment of the present utility model.

Reference numeral 1, a first wire assembly; 11. a first wire body; 12. a first interface; 13. a second interface; 2. a second wire assembly; 21. a second wire body; 22. a third interface; 23. a fourth interface; 231. a first Pogo-Pin connector column assembly; 232. a first bump; 3. a third wire assembly; 31. a third wire body; 32. a fifth interface; 33. a sixth interface; 331. a second Pogo-Pin connector column assembly; 332. a second bump; 4. a first USB connector; 41. a first joint body; 411. a third bump; 42. a third Pogo-Pin connector column assembly; 5. a second USB connector; 51. a second joint body; 511. a fourth bump; 52. and a fourth Pogo-Pin connection column assembly.

Detailed Description

The present utility model will be described more fully hereinafter in order to facilitate an understanding of the present utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Referring to fig. 1 to 2, a spliced data line according to an embodiment of the present utility model includes a first wire body assembly 1, a second wire body assembly 2, a third wire body assembly 3, a first USB connector 4 and a second USB connector 5; one end of the first wire body component 1 is detachably connected with the first USB joint 4, and the other end of the first wire body component 1 is detachably connected with one end of the third wire body component 3; one end of the second wire body component 2 is detachably connected with the second USB connector 5, and the other end of the second wire body component 2 is detachably connected with the other end of the third wire body component 3. In this embodiment, the first USB connector 4 is a USB Type male port, and in other embodiments, the first USB connector 4 may be a Type-C connector, which is not limited thereto. The second USB connector 5 is a Type-C connector, and in other embodiments, the second USB connector 5 may be a micousb connector or a lighting connector, which is not limited thereto. The user can be according to actual demand, select to change first USB connects 4, second USB connects 5, the data line can be applicable to the USB socket of different grade type, and the practicality is strong.

Specifically, the first wire assembly 1 includes a first wire 11, a first interface 12, and a second interface 13; the first interface 12 is installed at one end of the first wire body 11; the second interface 13 is mounted at the other end of the first wire 11. The first interface 12 is provided with a first electrical contact concave component; the first interface 12 is further provided with a first magnetic element arranged at a side of the first interface 12 remote from the first wire body 11. The second interface 13 is provided with a second electrical contact concave component; the second interface 13 is further provided with a second magnetic element arranged at a side of the second interface 13 remote from the first wire body 11.

The first USB connector 4 includes a first connector body 41, a third Pogo-Pin connection column assembly 42, and an eighth magnetic element; the third Pogo-Pin connecting column assembly 42 is installed at one side of the first connector body 41; the eighth magnetic element is arranged on the side of the first joint body 41 provided with the third Pogo-Pin connecting column assembly 42, and the magnetism of the eighth magnetic element is opposite to that of the second magnetic element at the second interface 13 of the first wire body assembly 1; the second interface 13 of the first wire body assembly 1 is connected with the first connector body 41 of the first USB connector 4 by the second magnetic element and the eighth magnetic element. The third Pogo-Pin connector assembly 42 is inserted into a corresponding second electrical contact socket assembly of the second interface 13.

Preferably, a third bump 411 is provided on one side of the first connector body 41, and the third Pogo-Pin connecting column assembly 42 is provided on the third bump 411; the second interface 13 of the first wire body component 1 is formed with a first socket cavity, and the first socket cavity is internally provided with the second electrical contact concave component. When the first USB connector 4 is close to the second interface 13 of the first line body component 1, under the magnetic adsorption effect, the third bump 411 is inserted into the first socket cavity, and the third Pogo-Pin connection column component 42 is inserted into the second electrical contact socket component, so that the first USB connector 4 and the second interface 13 of the first line body component 1 are tightly spliced together, thereby ensuring the stability of data connection of the data line.

The third wire body assembly 3 comprises a third wire body 31, a fifth interface 32 and a sixth interface 33; the fifth interface 32 is installed at one end of the third wire body 31; the sixth interface 33 is disposed at the other end of the third wire body 31. The fifth interface 32 is provided with a fourth electrical contact recess assembly; the fifth interface 32 is further provided with a fifth magnetic element arranged at a side of the fifth interface 32 remote from the third wire body 31. The sixth interface 33 is provided with a second Pogo-Pin connecting column assembly 331; the sixth interface 33 is further provided with a sixth magnetic element arranged on the side of the sixth interface 33 remote from the third wire body 31. The magnetic properties of the sixth magnetic element are opposite to the magnetic properties of the first magnetic element at the first interface 12 of the first wire body assembly 1; the sixth interface 33 of the third wire body assembly 3 is connected with the first interface 12 of the first wire body assembly 1 by the first magnetic element and the sixth magnetic element in an adsorption manner. The second Pogo-Pin connection pillar 331 is inserted into the corresponding first electrical contact recess.

Preferably, the sixth interface 33 is provided with a second bump 332, and the second bump 332 is disposed on a side of the sixth interface 33 away from the third wire 31. The second bump 332 is provided with the second Pogo-Pin connecting column assembly 331; the first interface 12 of the first wire body component 1 is formed with a second socket cavity, and the second socket cavity is internally provided with the first electrical contact concave component. When the sixth interface 33 is close to the first interface 12 of the first wire body assembly 1, the second bump 332 is inserted into the second socket cavity under the magnetic adsorption effect, and the second Pogo-Pin connection column assembly 331 is inserted into the first electrical contact socket assembly, so that the sixth interface 33 of the third wire body assembly 3 and the first interface 12 of the first wire body assembly 1 are tightly spliced together, thereby ensuring the stability of data connection of the data wire.

Further, the magnetic properties of the fifth magnetic element at the fifth interface 32 of the third wire body assembly 3 are opposite to the magnetic properties of the sixth magnetic element at the sixth interface 33; the second Pogo-Pin connection pillar 331 is matched with the fourth electrical contact recess. In this embodiment, the third wire body assembly 3 is set to one, and in other embodiments, the third wire body assembly 3 may be further set to two, three, or four according to the actual needs of the user, so as to achieve adjustment of the length of the data wire, so that the length of the data wire is suitable for various use scenarios, and the practicality is strong.

The second wire assembly 2 includes a second wire 21, a third interface 22, and a fourth interface 23; the third interface 22 is installed at one end of the second wire body 21; the fourth interface 23 is mounted at the other end of the second wire 21. The third interface 22 is provided with a third electrical contact recess assembly; the third interface 22 is further provided with a third magnetic element, which is arranged at a side of the third interface 22 remote from the second wire body 21. The fourth interface 23 is provided with a first Pogo-Pin connection column assembly 231; the fourth interface 23 is further provided with a fourth magnetic element, which is arranged at a side of the fourth interface 23 remote from the second wire body 21. The fourth magnetic element has a magnetic property opposite to that of the fifth magnetic element at the fifth interface 32 of the third wire body assembly 3; the fourth interface 23 of the second wire body assembly 2 is connected with the fifth interface 32 of the third wire body assembly 3 through the fourth magnetic element and the fifth magnetic element in an adsorption manner. The first Pogo-Pin connection Pin assembly 231 is inserted into a corresponding fourth electrical contact recess assembly of the fifth interface 32.

Preferably, the fourth interface 23 is provided with a first bump 232, and the first bump 232 is disposed on a side of the fourth interface 23 away from the second wire 21. The first bump 232 is provided with the first Pogo-Pin connection column assembly 231. A third plugging cavity is formed at the fifth interface 32 of the third wire body assembly 3, and the fourth electrical contact concave assembly is disposed in the third plugging cavity. When the fourth interface 23 of the second wire body assembly 2 is close to the fifth interface 32 of the third wire body assembly 3, the first bump 232 is inserted into the third socket cavity under the magnetic adsorption effect, and the first Pogo-Pin connection column assembly 231 is inserted into the fourth electrical contact socket assembly, so that the fourth interface 23 of the second wire body assembly 2 and the fifth interface 32 of the third wire body assembly 3 are tightly spliced together, thereby ensuring the stability of data connection of the data wire.

The second USB connector 5 includes a second connector body 51, a fourth Pogo-Pin connection column assembly 52, and a seventh magnetic element; the fourth Pogo-Pin connecting column assembly 52 is installed at one side of the second joint body 51; the seventh magnetic element is mounted on the side of the second connector body 51 where the fourth Pogo-Pin connector Pin assembly 52 is provided. The seventh magnetic element has a magnetic property opposite to the magnetic property of the third magnetic element at the third interface 22 of the second wire body assembly 2; the second connector body 51 of the second USB connector 5 is connected to the third interface 22 of the second wire assembly 2 by the third magnetic element and the seventh magnetic element. The fourth Pogo-Pin connection Pin assembly 52 is inserted into a corresponding third electrical contact recess assembly of the third interface 22.

Preferably, a fourth bump 511 is provided on one side of the second connector body 51, and the fourth Pogo-Pin connecting column assembly 52 is provided on the fourth bump 511; the third interface 22 of the second wire assembly 2 is formed with a fourth socket cavity, and the third electrical contact concave assembly is disposed in the fourth socket cavity. When the second USB connector 5 is close to the third interface 22 of the second wire body assembly 2, under the magnetic adsorption effect, the fourth bump 511 is inserted into the fourth inserting cavity, and the fourth Pogo-Pin connecting column assembly 52 is inserted into the third electrical contact concave assembly, so that the second USB connector 5 and the third interface 22 of the second wire body assembly 2 are tightly spliced together, thereby ensuring the stability of data connection of the data wire.

When in use, the first USB connector 4 is close to the second interface 13 of the first wire body component 1, and the first USB connector 4 is tightly adsorbed and connected with the second interface 13; subsequently, the sixth interface 33 of the third wire body assembly 3 is close to the first interface 12 of the first wire body assembly 1, and the sixth interface 33 of the third wire body assembly 3 is closely and in adsorption connection with the first interface 12 of the first wire body assembly 1; then the fourth interface 23 of the second wire body component 2 is close to the fifth interface 32 of the third wire body component 3, and the fourth interface 23 of the second wire body component 2 is closely and adsorbed and connected with the fifth interface 32 of the third wire body component 3; finally, the second USB connector 5 is close to the third interface 22 of the second wire body assembly 2, and the second USB connector 5 is tightly adsorbed and connected with the third interface 22 of the second wire body assembly 2 to form the data wire; the user can replace the corresponding first USB connector 4 and second USB connector 5 according to actual requirements; the user can also increase or decrease the number of the third wire body assemblies 3 according to the difference of the use scenes, so that the length of the data wire is adjusted, and the practicality is high.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The spliced data line is characterized by comprising a first line body component (1), a second line body component (2), at least one third line body component (3), a first USB connector (4) and a second USB connector (5);

one end of the first wire body component (1) is detachably connected with the first USB connector (4), and the other end of the first wire body component (1) is detachably connected with one end of the third wire body component (3); one end of the second wire body component (2) is detachably connected with the second USB connector (5), and the other end of the second wire body component (2) is detachably connected with the other end of the third wire body component (3).

2. A spliced data line according to claim 1, wherein the first line body component (1) comprises a first line body (11), a first interface (12) arranged at one end of the first line body (11) and a second interface (13) arranged at the other end of the first line body (11);

the second interface (13) is provided with a second electric contact concave component, and one side of the second interface (13) far away from the first wire body (11) is provided with a second magnetic element; the first USB connector (4) comprises a first connector body (41), a third Pogo-Pin connecting column assembly (42) arranged on one side of the first connector body (41), and an eighth magnetic element arranged on one side of the first connector body (41) where the third Pogo-Pin connecting column assembly (42) is arranged; the magnetism of the eighth magnetic element is opposite to that of the second magnetic element, and the second interface (13) is in adsorption connection with the first joint body (41) through the second magnetic element and the eighth magnetic element; the third Pogo-Pin connector Pin assembly (42) is inserted into a corresponding second electrical contact socket assembly.

3. A spliced data line according to claim 2, wherein a third bump (411) is provided on one side of the first connector body (41), and the third Pogo-Pin connection column assembly (42) is provided on the third bump (411); the second interface (13) is provided with a first inserting cavity, and the second electric contact concave component is arranged in the first inserting cavity.

4. A spliced data line according to claim 2, characterized in that the first interface (12) of the first line body component (1) is provided with a first electrical contact recess component, and that a side of the first interface (12) remote from the first line body (11) is provided with a first magnetic element;

the third wire body assembly (3) comprises a third wire body (31), a fifth interface (32) arranged at one end of the third wire body (31) and a sixth interface (33) arranged at the other end of the third wire body (31); the sixth interface (33) is provided with a second Pogo-Pin connecting column assembly (331), and a sixth magnetic element is arranged on one side of the sixth interface (33) far away from the third wire body (31); the magnetism of the sixth magnetic element is opposite to that of the first magnetic element, and the sixth interface (33) and the first interface (12) are in adsorption connection with the sixth magnetic element through the first magnetic element; the second Pogo-Pin connection post assembly (331) is inserted into the corresponding first electrical contact recess assembly.

5. The spliced data line according to claim 4, wherein a second bump (332) is mounted on a side of the sixth interface (33) away from the third wire body (31), and the second Pogo-Pin connection column assembly (331) is mounted on the second bump (332); the first interface (12) is provided with a second plug-in cavity, and the first electric contact concave component is arranged in the second plug-in cavity.

6. The spliced data line according to claim 4, wherein a fifth interface (32) of the third wire body assembly (3) is provided with a fourth electrical contact recess assembly, and a fifth magnetic element is arranged on a side of the fifth interface (32) away from the third wire body (31);

the second wire body assembly (2) comprises a second wire body (21), a third interface (22) arranged at one end of the second wire body (21) and a fourth interface (23) arranged at the other end of the second wire body (21); the fourth interface (23) is provided with a first Pogo-Pin connecting column assembly (231), and the fourth interface (23) is provided with a fourth magnetic element at one side far away from the second wire body (21); the magnetism of the fourth magnetic element is opposite to that of the fifth magnetic element, and the fifth interface (32) and the fourth interface (23) are in adsorption connection with the fifth magnetic element through the fourth magnetic element; the first Pogo-Pin connecting column assembly (231) is inserted into the corresponding fourth electric contact concave position assembly;

-the magnetic properties of the fifth magnetic element on the fifth interface (32) are opposite to the magnetic properties of the sixth magnetic element on the sixth interface (33); the second Pogo-Pin connector (331) is mated with the fourth electrical contact recess.

7. The spliced data line according to claim 6, wherein the fourth interface (23) is provided with a first bump (232) at a side far from the second line body (21), and the first Pogo-Pin connection column assembly (231) is provided on the first bump (232); the fifth interface (32) is formed with a third socket cavity, and the fourth electrical contact socket component is arranged in the third socket cavity.

8. The spliced data line according to claim 6, wherein a third interface (22) of the second line body component (2) is provided with a third electrical contact concave component, and a third magnetic element is arranged at one side of the third interface (22) away from the second line body (21);

the second USB connector (5) comprises a second connector body (51), a fourth Pogo-Pin connecting column assembly (52) arranged on one side of the second connector body (51) and a seventh magnetic element arranged on one side of the second connector body (51) where the fourth Pogo-Pin connecting column assembly (52) is arranged; the magnetism of the seventh magnetic element is opposite to that of the third magnetic element, and the third interface (22) and the second joint body (51) are in adsorption connection with the seventh magnetic element through the third magnetic element; the fourth Pogo-Pin connector assembly (52) is inserted into the corresponding third electrical contact recess assembly.

9. The spliced data line according to claim 8, wherein a fourth bump (511) is provided on one side of the second connector body (51), and the fourth Pogo-Pin connection column assembly (52) is provided on the fourth bump (511); the third interface (22) is provided with a fourth inserting cavity, and the third electric contact concave component is arranged in the fourth inserting cavity.

10. The spliced data line according to claim 1, wherein the first USB connector (4) is any one of a USBA Type male port and a Type-C connector; the second USB connector (5) is any one of a Type-C connector, a MircoUSB connector and a lighting connector.

Images