CN112003100A - Data line and preparation method thereof - Google Patents

Abstract

The invention relates to the technical field of electric connection, in particular to a data line and a preparation method of the data line. A method for manufacturing a data line is provided. The data line and the preparation method of the data line provided by the invention have the advantages that the connector is not easy to lose, the data line can rotate at any angle and the like.

Description

Data line and preparation method thereof

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of electric connection, in particular to a data line and a preparation method of the data line.

[ background of the invention ]

Current rotatory data line is most just can realize 360 rotation functions of plug end through magnetism, but magnetism inhales formula rotatory data line and causes plug end magnetism to inhale easily and connect unstability or plug end defects such as lose easily, brings very big inconvenience for the user, in addition current rotatory data line can not realize 360 rotations of plug end, 180 rotations are realized with plug end to the wiring end. At present, the problems that the plug end is not stably connected and the plug end is easily lost on the premise of realizing 360-degree rotation function of the rotating data line need to be solved.

[ summary of the invention ]

In order to overcome the defect that the plug end of the existing rotating data line is easy to lose, the invention provides a data line and a preparation method of the data line.

Preferably, the first electrical connection structure is rotatably connected with the second electrical connection structure by 360 degrees.

Preferably, the second electrical connection structure comprises a rotation portion and a wire end portion, one end of the rotation portion is rotatably connected with the wire end portion by 180 degrees, and the other end of the rotation portion rotates by 360 degrees relative to the first electrical connection structure.

Preferably, the data line further includes a socket and a connector, the socket is in socket connection with the first electrical connection structure and the second electrical connection structure, at least the second electrical connection structure is in rotatable connection with the socket, and the connector is in fixed connection with the socket or detachably connected with the socket.

Preferably, the socket joint piece is of a cylindrical hollow structure, a first convex ring is formed by the inner wall of the socket joint piece close to the connecting piece in a protruding mode, a second convex ring is formed by the inner wall of the socket joint piece far away from the connecting piece in a protruding mode, the height of the protrusion of the first convex ring is smaller than that of the protrusion of the second convex ring, the first electric connection structure abuts against the first convex ring, and the second electric connection structure abuts against the second convex ring.

Preferably, the first electrical connection structure includes a joint and a first conductive plate, the joint is electrically connected to the first conductive plate, the joint penetrates through the connecting piece and is exposed, the first conductive plate abuts against the inner wall of the connecting piece, and the first conductive plate abuts against the first convex ring.

Preferably, the second electrical connection structure includes a second electrical connection plate, the first electrical connection structure further includes at least two metal spring pieces, two ends of the at least two metal spring pieces in the elastic direction are respectively connected with the first electrical connection structure and the second electrical connection plate, and the second electrical connection plate is circular and rotates relative to the first electrical connection structure.

Preferably, the first electrically connecting structure or the second electrically conductive plate is provided with at least two electrically conductive rings, one end of the metal elastic piece is rotatably connected with the electrically conductive rings, and the other end of the metal elastic piece is fixedly connected with the first electrically connecting structure or the second electrically conductive plate to realize charging or data transmission.

Preferably, rotation portion includes base and backup pad, the backup pad is two and the symmetry sets up on the base, be provided with the axis of rotation in the backup pad, line tip passes through the axis of rotation and rotates the portion and rotate and be connected.

Preferably, the rotation portion includes at least two elastic terminals, the at least two elastic terminals and the line end electric connection, the elastic terminal includes a fixed section electrically connected with the first electric connection structure, a supporting section connected with the fixed section and protruding toward the line end one side, and a conductive contact provided on the supporting section and electrically connected with the line end.

Preferably, the line tip include with rotation portion rotates the keysets of being connected, the keysets includes the arc structure, the arc is structural to be provided with two at least ring connecting terminal, at least two ring connecting terminal sets up on an arc structure surface or two relative surfaces, the keysets with rotation portion connects and two at least elastic terminal and keysets electric connection.

In order to solve the above technical problem, the present invention provides a method for manufacturing a data line, which is used for manufacturing the data line according to any one of claims 1 to 11, the method for manufacturing the data line comprising the steps of:

s1: providing a first electrical connection structure;

s2: providing a second electrical connection structure;

s3: the first electric connection structure is sleeved on the second electric connection structure or the second electric connection structure is sleeved on the first electric connection structure, and the first electric connection structure is rotatably connected with the second electric connection structure.

Preferably, the step S3 is followed by the steps of:

s4: providing a socket and a connector;

s5: sleeving the socket with the first electrical connection structure and the second electrical connection structure so that at least the second electrical connection structure is rotatably connected with the socket; and

s6: and the connecting piece is detachably connected with the socket piece.

Preferably, the step S3 is followed by the steps of:

s41: providing a socket;

s42: sleeving the socket with the first electrical connection structure and the second electrical connection structure so that at least the second electrical connection structure is rotatably connected with the socket; and

s43: and pouring glue into a gap between the first electric connection structure and the socket joint part to form a connecting piece, wherein the first electric connection structure and the socket joint part are fixedly connected by the connecting piece.

Compared with the prior art, the data line and the preparation method of the data line provided by the invention have the following beneficial effects:

1. the data line comprises a first electric connection structure, a second electric connection structure and a socket joint piece, the socket joint piece is in socket joint with the first electric connection structure and the second electric connection structure to enable the first electric connection structure and the second electric connection structure to be electrically connected, and at least the second electric connection structure is in rotary connection with the socket joint piece. By adopting the design, the data line can rotate 360 degrees between the first electric connection structure and the second electric connection structure, the first electric connection structure and the second electric connection structure are stably connected, the first electric connection structure and the second electric connection structure are not easy to separate, and the first electric connection structure is prevented from being lost from the data line.

2. The first electric connection structure comprises a joint and a first conductive plate, the joint is electrically connected with the first conductive plate, the joint penetrates through the connecting piece and is exposed, and the first conductive plate is abutted against the inner wall of the connecting piece. The joint is fixedly connected with the connecting piece, and the joint can be prevented from being separated from the second electric connection structure.

3. The first electric connection structure further comprises a plurality of metal elastic sheets, the metal elastic sheets are arranged on the same horizontal plane, and two ends of the metal elastic sheets in the elastic direction are respectively connected with the first conductive plate and the second electric connection structure. The metal elastic sheet does not generate poor contact or offset phenomenon, and the signal transmission and the reliability of the data line are improved.

4. The wiring end portion include with rotation portion rotates the keysets of connecting, the keysets includes the arc structure, the arc is structural to be provided with two at least ring connecting terminal, at least two ring connecting terminal sets up on two relative surfaces in the arc structure, the keysets with rotation portion rotates and connects and two at least elastic terminal and keysets electric connection. Will ring connecting terminal sets up to be convex can be fine and the cooperation of elastic terminal, realizes both electric connection and realizes the relative rotating part electric connection of line terminal portion simultaneously.

[ description of the drawings ]

FIG. 1 is a schematic perspective view of a data line according to a first embodiment of the present invention;

FIG. 2 is an exploded view of a data line according to a first embodiment of the present invention;

FIG. 3 is an exploded view of the fixing portion of the first embodiment of the present invention;

FIG. 4 is a schematic diagram of another exploded structure of the data line according to the first embodiment of the present invention;

fig. 5 is a schematic perspective view of a second conductive plate and an elastic terminal according to a first embodiment of the present invention;

fig. 6 is a schematic perspective view of an elastic terminal according to a first embodiment of the present invention;

FIG. 7 is a schematic view of the exploded structure of the first and second electrical connection structures in the first embodiment of the present invention;

FIG. 8 is a schematic view of the connection structure of the first electrical connection structure and the second electrical connection structure in the first embodiment of the present invention;

FIG. 9 is an exploded view of the fixing portion of the first embodiment of the present invention;

fig. 10 is a plan view of a first electrical connecting structure and a rotating portion in the first embodiment of the present invention;

FIG. 11 is a sectional view taken along line A-A of FIG. 10;

FIG. 12 is a plan view of a data line in the first embodiment of the present invention;

FIG. 13 is a schematic perspective view of a data line according to a first embodiment of the present invention;

fig. 14 is a top view of an electronic device in a second embodiment of the invention;

FIG. 15 is a flowchart illustrating the steps of a method for manufacturing a data line according to a third embodiment of the present invention;

fig. 16 is a flowchart of a step S1 in the data line preparing method according to the third embodiment of the present invention;

fig. 17 is a flowchart of a step S2 in the data line preparing method according to the third embodiment of the present invention;

fig. 18 is a flowchart of a step S5 in the data line preparing method according to the third embodiment of the present invention;

fig. 19 is a flowchart of the step S7 in the data line preparing method according to the third embodiment of the present invention.

Description of reference numerals:

10. a data line; 20. a first electrical connection structure; 21. a joint; 22. a first conductive plate; 23. a metal spring sheet; 30. a second electrical connection structure; 40. a fixed part; 41. a connecting member; 42. a socket; 43. a cavity; 50. a rotating part; 51. a fixed seat; 511. a base; 512. a socket joint seat; 5121. a clamping groove; 513. a support plate; 514. an insulating member; 515. a rotating shaft; 52. a second conductive plate; 521. conducting rings; 53. an elastic terminal; 531. a fixed section; 532. a support section; 533. a conductive contact; 534. a connecting section; 60. a wire end; 61. an adapter plate; 62. an arc-shaped structure; 63. connecting holes; 64. a ring connection terminal; 65. a connecting seat; 66. a display lamp; 70. a wire body; 200. a third electrical connection structure; 300. an electronic device; 400. an electronic device body; 431. a first convex ring; 432. a second convex ring; 433. placing the noodles; 434. a propping surface.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Referring to fig. 1 and fig. 2, a data line 10 according to a first embodiment of the present invention includes a first electrical connection structure 20, a second electrical connection structure 30, and a fixing portion 40, wherein the second electrical connection structure 30 is connected to the first electrical connection structure 20 through the fixing portion 40, so that the first electrical connection structure 20 and the second electrical connection structure 30 realize a stable electrical connection relationship. The fixing portion 40 includes a connecting member 41 and a socket member 42, the connecting member 41 is fixedly connected or snap-fit connected to the socket member 42, the first electrical connection structure 20 is fixedly connected to the connecting member 41, and the second electrical connection structure 30 is rotatably connected to the socket member 42. By adopting the design, on the premise that the data line 10 can rotate 360 degrees between the first electrical connection structure 20 and the second electrical connection structure 30, the first electrical connection structure 20 and the second electrical connection structure 30 are stably connected, and the first electrical connection structure 20 and the second electrical connection structure 30 are not easily separated, so that the first electrical connection structure 20 is prevented from being lost from the data line 10. Alternatively, in some other embodiments, the connector 41 is snap-fit connected to the socket 42.

Optionally, in some other embodiments, the second electrical connecting structure 30 is directly sleeved with the first electrical connecting structure 20 and electrically connected to the first electrical connecting structure 20, and the first electrical connecting structure 20 is rotatably connected to the second electrical connecting structure 30.

Referring to fig. 2 and 3, the connecting member 41 and the socket member 42 are cylindrical, the socket member 42 is a hollow structure, the socket member 42 and the connecting member 41 form a cavity 43, and the second electrical connection structure 30 is partially accommodated in the cavity 43.

The first electrical connection structure 20 includes a connector 21 and a first conductive plate 22, the connector 21 is inserted into a socket of an electronic device, the connector 21 is connected to a side of the first conductive plate 22 away from the second electrical connection structure 30, the connector 21 is electrically connected to the first conductive plate 22, the connector 21 is disposed through the connector 41 and exposed, and the first conductive plate 22 abuts against an inner wall of the connector 41. In some specific embodiments, the connector 21 includes any one of a type-c connector, a micro-usb connector, or a lightning connector.

Optionally, in some other embodiments, the socket 42 is sleeved on the first electrical connection structure 20 and the second electrical connection structure 30, so that at least the second electrical connection structure 30 is rotatably connected with the socket 42.

Referring to fig. 4, the first electrical connection structure 20 further includes a plurality of metal elastic pieces 23, the metal elastic pieces 23 are disposed on the same horizontal plane, and two ends of the metal elastic pieces 23 in the elastic direction are respectively connected to the first conductive plate 22 and the second electrical connection structure 30.

Referring to fig. 4, the second electrical connection structure 30 includes a rotation portion 50 and a wire end 60, one end of the rotation portion 50 is rotatably connected to the wire end 60, and the sleeve 42 is sleeved on the other end of the rotation portion 50.

Referring to fig. 4, the rotating portion 50 includes a fixing base 51, a second conductive plate 52, and an elastic terminal 53, wherein the elastic terminal 53 is fixed on the second conductive plate 52 and electrically connected to the second conductive plate 52. The fixing base 51 includes a base 511, a socket 512 and a supporting plate 513. The supporting plates 513 are two and symmetrically arranged on the base 511. The base 511 and the supporting plate 513 are integrally formed. The socket 512 is sleeved on two supporting plates 513. Optionally, in some specific embodiments, the base 511 and the supporting plate 513 are made of a metal material, and the socket 512 is made of a plastic material. In order to avoid the interference of the electrical signal between the second conductive plate 52 and the base 511, an insulating member 514 is disposed between the second conductive plate 52 and the base 511, that is, the base 511 is sleeved outside the insulating member 514, and the second conductive plate 52 is fixedly connected to the insulating member 514. The second conductive plate 52 is fixed to the base 511 by an insulating member 514, and one surface of the second conductive plate 52 is exposed to the base 511. Optionally, in some other embodiments, the socket 512 is connected to the base 511 by screws or bolts. Optionally, in some other embodiments, the socket 512 is connected to the base 511 by a snap.

Referring to fig. 4, the socket 512 has a clip groove 5121 for receiving the wire end 60. The wire end 60 is electrically contacted with the elastic terminal 53 through the catching groove 5121 to perform a charging and/or data transmission function. Further, a rotation shaft 515 is provided on the support plate 513. The two ends of the rotating shaft 515 are fixed to the two supporting plates 513, respectively. The wire end 60 may be rotatably connected to the rotating portion 50 by a rotating shaft 515.

In some embodiments, the elastic terminal 53 is fixed on the surface of the second conductive plate 52 by SMT. Of course, the elastic terminal 53 may be partially fixed inside the second conductive plate 52. The two elastic terminals 53 are oppositely disposed on the second conductive plate 52 in two sets, and a space for electrically connecting the wire end 60 is formed between the two sets of elastic terminals 53. The space formed between the catching groove 5121 and the two sets of elastic terminals 53 are communicated with each other to form a space for receiving the wire end 60. It is understood that when the elastic terminal 53 has two terminals, one of which is a "V +" pole and the other of which is a "V-" pole, the electronic device is charged when the first electrical connection structure 20, the rotation portion 50 and the wire end portion 60 are connected.

Referring to fig. 4 and 5, the number of the elastic terminals 53 is 4, and each two elastic terminals are symmetrically disposed on the second conductive plate 52. Two elastic terminals 53 in one set are respectively: the "V +" pole, the other "D-" pole, and the two elastic terminals 53 of the other set are respectively: the "V-" pole, the other "D +" pole, when the line end 60 and the rotation part 50 are electrically connected, can play the function of charging and data transmission. Of course, the polarity distribution of the two sets of elastic terminals 53 may be other combinations, as long as it is ensured that the charging and data transmission functions are performed when the two sets of elastic terminals are connected to the line end 60.

Of course, it is understood that the elastic terminals 53 may be disposed on the second conductive plate 52 in a side-by-side manner, i.e., two sets are not formed, as long as the elastic terminals 53 are electrically connected to the wire ends 60.

At least two conducting rings 521 are arranged on one side of the second conducting plate 52 far away from the elastic terminal 53, at least two metal elastic pieces 23 are electrically connected with the conducting rings 521 to realize charging or data transmission, a plurality of metal elastic pieces 23 are arranged on the first conducting plate 22 and are fixedly connected with the first conducting plate 22, and a plurality of metal elastic pieces 23 are rotatably connected with the conducting rings 521 of the second conducting plate 52. Optionally, in some other embodiments, at least two conductive rings 521 are disposed on the first conductive plate 22, the plurality of metal elastic pieces 23 are rotatably connected to the conductive rings 521 on the first conductive plate 22, and the plurality of metal elastic pieces 23 are fixedly connected to the second conductive plate 52.

Referring to fig. 5 and 6, the elastic terminal 53 includes a fixing segment 531 fixedly connected to the second conductive plate 52, a supporting segment 532 connected to the fixing segment 531 and protruding from the surface of the second conductive plate, and a conductive contact 533 disposed on the supporting segment 532 and electrically connected to the wire end 60. The support section 532 is a bent plate-shaped structure, and is bent after extending a height from one end connected to the fixing section 531, and further extends to a side close to the second conductive plate 52 after being bent, and is not in contact with the fixing section 531 and the second conductive plate 52. The conductive contact 533 is provided on a structure in which each support segment 532 extends toward the second conductive plate 52. The conductive contacts 533 of the two sets of elastic terminals 53 are oppositely disposed, and the space formed by the conductive contacts 533 of the two sets of elastic terminals 53 is used for the insertion of the wire end portion 60.

With reference to fig. 5 and fig. 6, the elastic terminal 53 further includes a connection section 534 connected to the structure where each support section 532 extends toward the second conductive plate 52, the connection section 534 is a bent plate, one end of the connection section 534 far away from the support sections 532 protrudes toward the other group of elastic terminals 53, and the two conductive contacts 533 disposed on the connection section 534 of the same group of elastic terminals 53 have unequal distances from the second conductive plate 52, and are disposed in a high-low manner so as to be electrically connected to the wire end 60.

Referring to fig. 7 and 8, the line end 60 includes an adapter plate 61 rotatably connected to the rotating portion 50, the adapter plate includes an arc structure 62, a connecting hole 63 is formed in the arc structure 62, and the rotating shaft 515 is rotatably connected to the connecting hole 63. The arc-shaped structure 62 is provided with at least two ring connection terminals 64 electrically connected to the conductive contacts 533 of the elastic terminals 53, the at least two ring connection terminals 64 are disposed on two opposite surfaces of the arc-shaped structure 62, the at least two ring connection terminals 64 are electrically connected to an external line 70, the interposer 61 is rotatably connected to the rotating shaft 515, and the at least two elastic terminals 53 are electrically connected to the interposer 61.

The number of the ring connection terminals 64 corresponds to the number of the elastic terminals 53, that is, when the elastic terminals 53 are two pieces, the number of the ring connection terminals 64 is also 2, and one ring connection terminal 64 is provided on the surface of each interposer 61. Each of the ring connection terminals 64 corresponds to a "V +" pole and a "V-" pole, respectively. When the number of the elastic terminals 53 is 4, they are provided two by two on opposite sides of the interposer 61. When the number of the ring connection terminals 64 is 4, two ring connection terminals 64 of each group are arranged in the form of concentric circles with the connection hole 63 as the center. The first two circular connection terminals 64 correspond to a "V-" pole and a "D +" pole, and the second two circular connection terminals 64 correspond to a "V +" pole and a "D-" pole, so that the data line 10 has a charging function and a data transmission function.

It is understood that when the elastic terminals 53 are disposed in two sets oppositely, the circular ring connecting terminals 64 are also disposed in two sets on two opposite surfaces of the adapting board 61; when the elastic terminals 53 are arranged side by side on one side of the second conductive plate 52, the ring-shaped connection terminals 64 may be arranged on only one surface of the interposer 61.

Alternatively, the arc angle of the ring connection terminal 64 is greater than 180 ° and less than 360 °. The adapter plate 61 is also configured as a circular arc structure. I.e. at least including a part of the arcuate structure. The rotation angle of the adapter plate 61 is 0-180 degrees. The rotation angle of the adapter plate 61 is less than or equal to 180 °. The specific arc angle of the ring connection terminal 64 is not limited, as long as it is ensured that the ring connection terminal can be normally connected with the wire body 70 and normally conducted within the rotation range of 0-180 degrees of the adapter plate 61. As shown in fig. 7, which is a schematic view when relatively rotated by 90 °.

In addition, in some embodiments, the adapter plate 61 may be made of a metal material or a plastic material. When the interposer 61 is made of a metal material, the ring-shaped connection terminals 64 may be formed on the interposer 61 by plating a conductive material, and when the interposer 61 is made of a plastic material, the ring-shaped connection terminals 64 may be formed on the interposer 61 by melting the conductive material.

Referring to fig. 9, 10 and 11, a first convex ring 431 is formed by the inner wall of the socket 42 close to the connecting member 41, a second convex ring 432 is formed by the inner wall of the socket 42 far from the connecting member 41, the height of the protrusion of the first convex ring 431 is smaller than the height of the protrusion of the second convex ring 432 to form a step structure, a placing surface 433 is defined by the first convex ring 431 towards one side of the connecting member 41, and a supporting surface 434 is defined by the second convex ring 432 towards one side of the connecting member 41. That is, the first electrical connecting structure 20 abuts against the first collar 431, and the rotating portion 50 abuts against the second collar 432.

The radial dimension of the first conductive plate 22 is greater than the radial dimension of the base 511. The second convex ring 432 is sleeved on the base 511, and one surface of the base 511 away from the first electrical connection structure 20 abuts against the abutting surface 434; the first protruding ring 431 accommodates the first conductive plate 22, one surface of the first conductive plate 22 close to the base 511 abuts on the placing surface 433, and a space is left between the outer wall of the first conductive plate 22 and the inner wall of the first protruding ring 431 to accommodate glue. With this design, when the first conductive plate 22 is fixed by potting, the glue solution will not overflow to the base 511 due to the abutting of the first conductive plate 22 and the abutting surface 434, and further the glue solution is prevented from overflowing to the second conductive plate 52.

Referring to fig. 12, the wire end 60 further includes a connecting seat 65 for fixedly connecting the wire body 70 and the adaptor plate 61. The connecting base 65 is provided with a display lamp 66, and the display lamp 66 is electrically connected with the adapter plate 61. The operating state of the data line 10 is indicated by the display lamp 66.

Referring to fig. 13, the data line 10 includes a wire body 70 and a third electrical connection structure 200, the second electrical connection structure 30 is connected to the third electrical connection structure 200 through the wire body 70, and a connector of the third electrical connection structure 200 may be one of a USB connector, a micro-USB connector, a TYPE-C connector, and a Lightning connector.

Referring to fig. 14, a second embodiment of the invention provides an electronic device 300, where the electronic device 300 includes an electronic device body 400 and a data line 10, and the electronic device body 400 is electrically connected to the data line 10. The electronic device body 400 may be any one of electronic devices such as a mobile phone, a tablet computer, and a game machine.

Referring to fig. 15, a third embodiment of the present invention provides a method for manufacturing a data line 10, including the data line 10, where the method for manufacturing the data line 10 includes the following steps:

s1: providing a first electrical connection structure 20;

s2: providing a second electrical connection structure 30;

s3: the first electrical connection structure 20 is sleeved on the second electrical connection structure 30 or the second electrical connection structure 30 is sleeved on the first electrical connection structure 20, and the first electrical connection structure 20 is rotatably connected with the second electrical connection structure 30.

Referring to fig. 16, the step S3 includes the following steps:

s4: providing a socket 42 and a connector 41;

s5: sleeving the socket 42 over the first electrical connection structure 20 and the second electrical connection structure 30, such that at least the second electrical connection structure 30 is rotatably connected with the socket 42; and

s6: the connecting piece 41 is detachably connected with the socket 42.

S7: at least the first electrical connection structure 20 is partially received on the socket 42;

s8: glue is poured into the gap between at least the first electrical connection structure 20 and the socket 42.

Referring to fig. 17, the step S3 includes the following steps:

s41: providing a socket 42;

s42: sleeving the socket 42 over the first electrical connection structure 20 and the second electrical connection structure 30, such that at least the second electrical connection structure 30 is rotatably connected with the socket 42; and

s43: glue is poured into the gap between the first electrical connection structure 20 and the socket 42 to form a connector 41, and the connector 41 fixedly connects the first electrical connection structure 20 and the socket 42.

Referring to fig. 18, the step S5 includes the following steps:

s51: the rotating part 50 is sleeved with the sleeving piece 42;

s52: the rotating portion 50 is fitted to the socket 42 in a direction of one side of the first beads 431 to the second beads 432;

s53: the base 511 and the supporting plate 513 penetrate through the cavity 43;

s54: the second convex ring 432 accommodates the second conductive plate 52 and the second conductive plate 52 abuts against the abutting surface 434.

In the step S6, the connecting member 41 and the socket member 42 may be any one of detachable connections such as a snap connection and a snap connection.

Referring to fig. 19, the step S7 includes the following steps:

s71: the first conductive plate 22 is placed on the socket 42;

s72: the first conductive plate 22 is electrically connected with the second conductive plate 52 through a metal elastic sheet 23;

s73: the first collar 431 accommodates the first conductive plate 22 and the first conductive plate 22 abuts on the placement surface 433.

The step S6 includes: the connecting member 41 is fastened or fixedly connected to the sleeve member 42, the first conductive plate 22 is sleeved with the connecting member 41, and the joint 21 penetrates through the connecting member 41 and is exposed.

The step S8 includes: glue is poured into a gap between the outer wall of the first conductive plate 22 and the inner wall of the first flange 431.

The data line and the preparation method of the data line provided by the invention have the following beneficial effects:

1. the data line comprises a first electric connection structure, a second electric connection structure and a socket joint piece, the socket joint piece is in socket joint with the first electric connection structure and the second electric connection structure to enable the first electric connection structure and the second electric connection structure to be electrically connected, and at least the second electric connection structure is in rotary connection with the socket joint piece. By adopting the design, the data line can rotate 360 degrees between the first electric connection structure and the second electric connection structure, the first electric connection structure and the second electric connection structure are stably connected, the first electric connection structure and the second electric connection structure are not easy to separate, and the first electric connection structure is prevented from being lost from the data line.

2. The first electric connection structure comprises a joint and a first conductive plate, the joint is electrically connected with the first conductive plate, the joint penetrates through the connecting piece and is exposed, and the first conductive plate is abutted against the inner wall of the connecting piece. The joint is fixedly connected with the connecting piece, and the joint can be prevented from being separated from the second electric connection structure.

3. The first electric connection structure further comprises a plurality of metal elastic sheets, the metal elastic sheets are arranged on the same horizontal plane, and two ends of the metal elastic sheets in the elastic direction are respectively connected with the first conductive plate and the second electric connection structure. The metal elastic sheet does not generate poor contact or offset phenomenon, and the signal transmission and the reliability of the data line are improved.

4. The wiring end portion include with rotation portion rotates the keysets of connecting, the keysets includes the arc structure, the arc is structural to be provided with two at least ring connecting terminal, at least two ring connecting terminal sets up on two relative surfaces in the arc structure, the keysets with rotation portion rotates and connects and two at least elastic terminal and keysets electric connection. Will ring connecting terminal sets up to be convex can be fine and the cooperation of elastic terminal, realizes both electric connection and realizes the relative rotating part electric connection of line terminal portion simultaneously.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit of the present invention are intended to be included within the scope of the present invention.

Claims (14)

1. A data line, characterized by: the data line comprises a first electric connection structure and a second electric connection structure, the second electric connection structure is sleeved with the first electric connection structure and is electrically connected with the first electric connection structure, and the first electric connection structure is connected with the second electric connection structure in a relatively rotating mode.

2. A data line as claimed in claim 1, wherein: the first electric connection structure is connected with the second electric connection structure in a rotating mode relative to 360 degrees.

3. A data line as claimed in claim 2, wherein: second electric connection structure is including rotating portion and line tip, rotate portion one end with 180 rotations of line tip are connected, the relative 360 rotations of the portion other end of rotating and first electric connection structure.

4. A data line as claimed in claim 2, wherein: the data line further comprises a socket piece and a connecting piece, the socket piece is in socket joint with the first electric connection structure and the second electric connection structure, at least the second electric connection structure is in rotary connection with the socket piece, and the connecting piece is in fixed connection with the socket piece or is in detachable connection with the socket piece.

5. A data line as claimed in claim 4, characterized in that: the socket joint piece is of a columnar hollow structure, a first convex ring is formed by the inner wall of the socket joint piece close to the connecting piece in a protruding mode, a second convex ring is formed by the inner wall of the socket joint piece far away from the connecting piece in a protruding mode, the height of the protrusion of the first convex ring is smaller than that of the protrusion of the second convex ring, the first electric connection structure abuts against the first convex ring, and the second electric connection structure abuts against the second convex ring.

6. A data line as claimed in claim 5, wherein: the first electric connection structure comprises a joint and a first conductive plate, the joint is electrically connected with the first conductive plate, the joint penetrates through the connecting piece and is exposed, the first conductive plate is abutted to the inner wall of the connecting piece, and the first conductive plate is abutted to the first convex ring.

7. A data line as claimed in claim 1, wherein: the second electric connection structure comprises a second electric conduction plate, the first electric connection structure further comprises at least two metal elastic sheets, two ends of the at least two metal elastic sheets in the elastic direction are respectively connected with the first electric connection structure and the second electric conduction plate, and the second electric conduction plate is in a circular shape and rotates relative to the first electric connection structure.

8. A data line as claimed in claim 7, wherein: at least two conducting rings are arranged on the first electric connection structure or the second conducting plate, one end of the metal elastic sheet is rotatably connected with the conducting rings, and the other end of the metal elastic sheet is fixedly connected with the first electric connection structure or the second conducting plate so as to realize charging or data transmission.

9. A data line as claimed in claim 3, wherein: the rotation portion includes base and backup pad, the backup pad is two and the symmetry sets up on the base, be provided with the axis of rotation in the backup pad, the line tip passes through the axis of rotation and rotates the portion and rotate and be connected.

10. A data line as claimed in claim 9, wherein: rotation portion includes two at least elastic terminal, two at least elastic terminal with line tip electric connection, elastic terminal includes the canned paragraph with first electric connection structure electric connection, is connected with the canned paragraph and towards convex support section in line tip one side and set up on the support section with line tip electric connection's conductive contact.

11. A data line as claimed in claim 10, wherein: the wiring end portion include with rotation portion rotates the keysets of connecting, the keysets includes the arc structure, the arc is structural to be provided with two at least ring connecting terminal, two at least ring connecting terminal sets up on an arc structure surface or two relative on the surface, the keysets with rotation portion connects and two at least elastic terminal and keysets electric connection.

12. A method for manufacturing a data line, which is used for manufacturing the data line according to any one of claims 1 to 11, characterized in that: the preparation method of the data line comprises the following steps:

s1: providing a first electrical connection structure;

s2: providing a second electrical connection structure;

s3: the first electric connection structure is sleeved on the second electric connection structure or the second electric connection structure is sleeved on the first electric connection structure, and the first electric connection structure is rotatably connected with the second electric connection structure.

13. The method of claim 12, wherein: the step S3 includes the following steps:

s4: providing a socket and a connector;

s5: sleeving the socket with the first electrical connection structure and the second electrical connection structure so that at least the second electrical connection structure is rotatably connected with the socket; and

s6: and the connecting piece is detachably connected with the socket piece.

14. The method of claim 12, wherein: the step S3 includes the following steps:

s41: providing a socket;

s42: sleeving the socket with the first electrical connection structure and the second electrical connection structure so that at least the second electrical connection structure is rotatably connected with the socket; and

s43: and pouring glue into a gap between the first electric connection structure and the socket joint part to form a connecting piece, wherein the first electric connection structure and the socket joint part are fixedly connected by the connecting piece.

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