CN214542841U - Transmission line - Google Patents

Abstract

The utility model relates to the technical field of electronic equipment accessories, in particular to a transmission line, which comprises a first transmission part and a second transmission part which are electrically connected, wherein the second transmission part comprises a first conductive piece, the first conductive piece comprises a first conductive section and a second conductive section, the first conductive section and the second conductive section are electrically conducted, and a conductive element is not arranged between the first conductive section and the second conductive section to conduct the conductive connection between the first conductive section and the second conductive section; the first conductive connection section is used for being electrically connected with the magnetic attraction type connector or used for being electrically connected with a connector part inserted into the electronic equipment; the second conduction section is used for being electrically connected with the first transmission part, the first conduction section and the second conduction section which are respectively electrically conducted with the first transmission part and the second transmission part are arranged to be conducted electronic components, a conduction element similar to a PCB does not need to be arranged between the first conduction section and the second conduction section to conduct the first conduction section and the second conduction section, elements of the transmission line can be well reduced, cost is saved, meanwhile, a preparation process can be saved, and production efficiency is improved.

Description

Transmission line

[ technical field ] A method for producing a semiconductor device

The utility model relates to an electronic equipment accessory technical field especially relates to a transmission line.

[ background of the invention ]

The transmission line is the accessory that mobile device charges, data transmission must possess. A transmission line generally includes a joint inserted into an electronic device and a wire body connected to the joint. When the components connected with different parts on the structure are electrically conducted, the components of the two parts are often conducted by arranging the middle switching component PCB, and the structure is relatively complex, so that the process is complicated or the preparation cost is increased.

[ Utility model ] content

For overcoming the complicated defect of current transmission line structure, the utility model provides a transmission line.

The utility model provides a transmission line, a transmission line for charging and/or data transmission to electronic equipment, it includes first transmission portion and the second transmission portion of electric connection, first transmission portion is used for receiving electric signal and/or data signal, the second transmission portion is used for with insert the magnetism of the magnetism type joint magnetism of electronic equipment and inhale and be connected; the second transmission part comprises a first conductive piece and a first magnetic piece, the first conductive piece comprises a first guide connection section, a second guide connection section and a first guide connection piece for connecting the first guide connection section and the second guide connection section, and the first guide connection section and the second guide connection section are positioned on two opposite sides of the first guide connection piece; the first magnetic piece is provided with a guide connection hole, and the first guide connection section extends out of the guide connection hole and is electrically connected with the magnetic-type connector; the second conductive connection section is used for being electrically connected with the first transmission part.

Preferably, the first conductive connecting part is a non-circuit board structure.

Preferably, the second transmission portion further includes a second conductive member, the second conductive member includes a third conductive segment and a fourth conductive segment, the third conductive segment is electrically connected to the first transmission portion, and the fourth conductive segment is electrically connected to the first magnetic member.

Preferably, the first transmission portion includes an adapter plate and a line body electrically connected to the adapter plate, and the second conductive section and the third conductive section are rotatably connected to the adapter plate.

Preferably, the second lead-connection section and the third lead-connection section are oppositely arranged to form a space for the adapter plate to be plugged in, or the second lead-connection section and the third lead-connection section are arranged in a row, and the second lead-connection section and the third lead-connection section are in contact with the same side of the adapter plate.

Preferably, the transmission line is a charging line, the number of the first conductive members is 1, the number of the second conductive members is 1, the interposer includes an arc-shaped structure, the interposer includes two opposite main surfaces, at least one of the main surfaces is provided with a contact line, the number of the contact lines on each main surface is at least 1, when the number of the contact lines on each main surface is greater than or equal to 2, the contact lines on the same main surface are arranged in the form of concentric rings, and the second conductive section and the third conductive section are electrically connected to the contact lines.

Preferably, the transmission line further includes a first conductive connection member, the first conductive connection member connects the first conductive connection section and the second conductive connection section, and the first conductive connection section and the second conductive connection section are formed by extending in opposite directions along the first conductive connection member.

Preferably, the second transmission part further comprises an insulating member, the insulating member includes a first insulating member located in the conductive connection hole and a second insulating member located on a side of the first magnetic member close to the first transmission part, the first insulating member is disposed in the conductive connection hole to insulate and separate the first conductive member from the first magnetic member, and the second insulating member fixes and insulates the first conductive member and the second conductive member.

Preferably, the first conductive member and the second conductive member are integrally formed.

Preferably, second transmission portion still includes the fixing base, the fixing base cup joints first electrically conductive with the second electrically conductive, the fixing base includes first fixed part and second fixed part, form the holding keysets between first fixed part and the second fixed part and supply the second to lead the section with the joint groove that the section stretches out is led to the third, first fixed part with at least one of second fixed part is provided with the clamping piece, be provided with the protruding spliced pole on the clamping piece surface on the clamping piece, the keysets is provided with the switching hole, the spliced pole penetrates the switching hole.

Compared with the prior art, the utility model provides a transmission line has following beneficial effect:

1. a transmission line is used for charging and/or data transmission of electronic equipment and comprises a first transmission part and a second transmission part which are electrically connected, wherein the first transmission part is used for receiving electric signals and/or data signals, and the second transmission part is used for being magnetically connected with a magnetic-type connector inserted into the electronic equipment; the second transmission part comprises a first conductive piece and a first magnetic piece, the first conductive piece comprises a first guide connection section, a second guide connection section and a first guide connection piece for connecting the first guide connection section and the second guide connection section, and the first guide connection section and the second guide connection section are positioned on two opposite sides of the first guide connection piece; the first magnetic piece is provided with a guide connection hole, and the first guide connection section extends out of the guide connection hole and is electrically connected with the magnetic-type connector; the second conductive connecting section is used for being electrically connected with the first transmission part; the first conductive connection section and the second conductive connection section which are respectively in electrical conductive connection with the first transmission part and the second transmission part are arranged into two components connected through the first conductive connection piece, and a conductive connection element similar to a PCB does not need to be arranged between the first conductive connection section and the second conductive connection section to conduct the first conductive connection section and the second conductive connection section, so that the components of the transmission line can be well reduced, the cost is saved, the preparation process can be saved, and the production efficiency is improved.

2. The second transmission part is used for being magnetically attracted and connected with a magnetic type connector inserted into the electronic equipment, the second transmission part further comprises a first magnetic part, the first magnetic part is provided with a guide hole, the first guide connection section extends out of the guide hole and is electrically connected with the magnetic type connector, in the magnetic type data line, the first guide connection section directly extends out of the guide hole, a guide connection element does not need to be arranged between the second guide connection section which is electrically connected with the end of the line body, and the preparation process can be further saved.

3. First transmission portion includes the keysets and with keysets electric connection's the line body, the second lead connect the section with the third lead connect the section with the keysets rotates to be connected, the second lead connect the section with third lead connects section electric connection, and in the data line is inhaled to rotation type magnetism, first lead connect the section and the second lead connect the section to form respectively in the both sides of first magnetic part with magnetism respectively inhale formula joint and first transmission portion electric connection, also need not set up and lead and connect the component, can further solve the complicated technical problem of rotary type data line preparation technology.

4. The second is led and is connect the section with the third is led to set up relatively between the section and is formed the space that supplies the keysets to peg graft or the second is led and is connect the section with the third is led and connect the section and set up one row, the second is led connect the section with the contact of third is led and is connect the section in the same one side of keysets, sets up the mode that sets up relatively with both, and the space of reduction transmission line that can be fine especially when the transmission line possesses the data transmission function, and it needs many thimble, and the mode that sets up relatively can be fine presss from both sides tight and practices thrift the space to the keysets.

5. When setting up the transmission line into the charging wire, the first section of leading that stretches out from leading the via hole is one, and its guarantee charging wire structure's that can be fine is small and exquisite nature.

6. The transmission line still includes first lead union piece, first lead union piece is connected first lead section and second lead section, first lead section and second lead section are for extending the formation to opposite direction along first lead union piece, guarantee that first conductive section and second lead section can be smooth and magnetism inhale formula joint and first transmission portion electric connection.

7. Set up the first electrically conductive piece of assurance that insulating part can be fine and electrically conduct between the piece mutually insulating with the second, simultaneously can be fine fix both, and can also be fine with first magnetism spare and first lead the insulating partition of section for do not disturb between the signal of the first electrically conductive piece and the second electrically conductive piece.

8. The second leads to connect the section with the third leads to connect the section and is provided with two and lead the contact point, and improvement second that can be fine leads to connect the section and the third leads the contact point of section and keysets, improves the stability of electrically conductive connection, first electrically conductive piece with the second electrically conductive piece is integrated into one piece, can further practice thrift preparation technology.

9. The convex connecting column is directly arranged on the fixing part and can be integrally formed with the fixing seat, so that the rotary connection of the rotary connecting plate by arranging an additional rotary shaft is avoided, and the preparation process is saved; when the adapter plate is installed, the adapter plate is clamped, so that the installation steps can be saved, and the installation efficiency is improved.

[ description of the drawings ]

Fig. 1 is a schematic perspective view of a magnetic-type joint according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a transmission line according to a first embodiment of the present invention;

fig. 3 is an exploded schematic view of a transmission line according to a first embodiment of the present invention;

fig. 4 is an exploded schematic view of a second transmission part of the transmission line according to the first embodiment of the present invention;

fig. 5 is a schematic partial structure diagram of a second transmission portion of the transmission line according to the first embodiment of the present invention;

fig. 6 is a schematic front view of a fixing base of a transmission line according to a first embodiment of the present invention;

fig. 7 is a schematic front view of a fixing base of a transmission line according to a first embodiment of the present invention;

fig. 8 is a schematic perspective view of a transmission line according to a second embodiment of the present invention;

description of reference numerals:

10. a transmission line; 101. a fixed seat; 1011. a first fixed part; 1012. a second fixed part; 1013. a clip; 1015. a side portion; 1014. a clamping groove; 1016. connecting columns; 1017. a top portion; 1018. a limiting hole; 1019. a guide slope; 103. a conductive member; 103a, a first conductive member; 1031. a first conductive connection section; 1032. a second conductive connection section; 1034. a first guide member; 103b, a second conductive member; 1036. a third conductive connection section; 1037. a fourth conductive connection section; 1038. a second lead; 1031. a fixed section; 1032a, a support section; 1032b, a conducting segment; 1033. a conductive point; 1034. a conductive connection section; 1035. a fixing hole; 107. a first magnetic member; 1071. a guide connection hole; 109. an insulating member; 1091. a first insulating member; 1092. a second insulating member; 1093. a via hole; 1094. fixing a column; 20. a second transmission section; 30. a first transmission section; 3011. an adapter plate; 3011a, main surface; 3012. a wire body; 3013. a contact line; 3016. a display lamp; 3017. a connecting seat; 3018. switching the hole; 40. a magnetic-type joint; 50. a joint portion; 501. a contact portion; 60. a switching part.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the 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.

Referring to fig. 1, 2 and 3, a first embodiment of the present invention provides a transmission line 10 for charging and/or data transmission of an electronic device. The electronic device includes a cell phone, or other portable electronic device. The electronic equipment comprises a second transmission part 20 and a first transmission part 30 which are connected in a rotating mode, wherein the first transmission part 30 is used for receiving electric signals and/or data signals, and the second transmission part 20 is used for being inserted into the electronic equipment or being connected with a magnetic suction type connector 40 which is inserted into the electronic equipment in a magnetic suction mode. The magnetic attraction type connector 40 includes any one of a type-c terminal, a micro-usb terminal, or a lightning terminal.

Referring to fig. 3, the first transmission portion 30 includes an adapter plate 3011 and a wire 3012 electrically connected to the adapter plate 3011. The adapter plate 3011 is provided with a contact circuit 3013 electrically connected to the second transmission unit 20, and the contact circuit 3013 is electrically connected to the line 3012. The contact line 3013 is in an open semi-circular arc structure or a closed ring structure, that is, a portion including an arc structure.

The interposer 3011 includes two main surfaces 3011a arranged oppositely, the contact lines 3013 are arranged on at least one of the main surfaces 3011a, the number of the contact lines 3013 on each main surface 3011a is at least 1, and when the number of the contact lines 3013 on each main surface 3011a is greater than or equal to 2, the contact lines 3013 on the same main surface 3011a are arranged in the form of concentric rings with the center of the interposer 3011 as the center.

Optionally, the contact line 3013 has an arc angle greater than 180 ° and equal to or less than 360 °. The adapter plate 3011 is also configured to be a circular arc structure. I.e. at least including a part of the arcuate structure. The rotation angle of the adapter plate 3011 is 0-180 °. The rotation angle of the adapting plate 3011 is less than or equal to 180 °. The specific arc angle of the contact line 3013 is not limited, as long as it is ensured that it can be normally connected to the line 3012, and normally conducted within the rotation range of 0-180 ° of the adapter plate 3011.

Of course, in some other embodiments, the rotation angle is not limited to 0-180 °.

In addition, in some embodiments, the adapter plate 3011 may be made of a metal material or a plastic material. When the interposer 3011 is made of a metal material, the contact lines 3013 may be formed on the interposer 3011 by plating a conductive material, and when the interposer 3011 is made of a plastic material, the contact lines 3013 may be formed on the interposer 3011 by melting the conductive material.

Referring to fig. 3, the first transmission unit 30 further includes a connection seat 3017 for fixedly connecting the wire body 3012 and the adapter plate 3011. A display lamp 3016 is arranged on the connecting seat 3017, and the display lamp 3016 is electrically connected to the adapter plate 3011. The operation state of the transmission line 10 is indicated by the display lamp 3016.

Referring to fig. 3, 4 and 5, the second transmission part 20 includes a fixing base 101, a conductive member 103, a first magnetic member 107 and an insulating member 109. The first magnetic member 107 is configured as a ring shape, and a conductive hole 1071 is formed in the center thereof for allowing the conductive member 103 to partially extend out to be magnetically connected with the magnetic connector 40. The insulator 109 includes a first insulator 1091 and a second insulator 1092 connected thereto. Optionally, the first insulator 1091 and the second insulator 1092 are integrally injection molded. The first insulator 1091 and the second insulator 1092 are disposed in a "T" shape. The first insulator 1091 is provided with a via hole 1093 for the conductive member 103 to pass through. The first insulator 1091 is disposed in the docking hole 1071 to insulate and separate the conductive member 103 from the first magnetic member 107. The second insulating member 1092 is located on a side of the first magnetic member 107 close to the first transmission portion 30, and fixedly connects the conductive members 103. A fixing post 1094 is disposed on the second insulating member 1092, a fixing hole 1035 is disposed on the conductive member 103, and the fixing of the fixing post 1094 and the fixing hole 1035 is achieved by connection between the fixing post 1035 and the fixing hole 1035. In order to better achieve the fixed connection between the fixing post 1094 and the fixing hole 1035, the top of the fixing post 1094 is deformed to be relatively larger than the diameter of the fixing hole 1035 by hot pressing or cold pressing after the fixing post 1094 is snapped into the fixing hole 1035, so as to prevent the guide 103 from being detached. The fixing post 1094 may even be deformed by heat pressing, and the fixing post 1094 may be welded to the guide 103. The fixing base 101 is provided with a cavity, and the fixing base 101 is sleeved outside the first magnetic part 107 and sleeved inside the first magnetic part 107, the conductive part 103 and the insulating part 109.

As a variation, the conductive member 103 may be fixed by the fixing base 101. The insulator 109 may be omitted and fixed.

With continued reference to fig. 4 and 5, the conductive members 103 include a first conductive member 103a and a second conductive member 103 b. In some embodiments, the number of the first conductive member 103a and the second conductive member 103b is 1, and the first conductive member 103a and the second conductive member 103b are defined as "V +" and "V-" poles, respectively, and the transmission line 10 plays a role of transmitting an electrical signal and is used as a charging line.

With continued reference to fig. 4 and 5, the first conductive member 103a includes a first conductive segment 1031, a second conductive segment 1032, and a first conductive member 1034 connecting the first conductive segment 1031 and the second conductive segment 1032. The first docking section 1031 protrudes from the via hole 1093 of the first insulator 1091 and is disposed in the docking hole 1071. The first docking section 1031 is accommodated in the docking hole 1071 and then partially protrudes out of the end surface of the first magnetic member 107 to be magnetically connected with the magnetic coupling. The fixing hole 1035 is provided in the first guide 1034, and the first conductive member 103a is fixed to the second insulating member 1092 by the first guide 1034. The second lead section 1032 is formed convexly on the surface of the first lead 1034, and is provided with a lead point 1033, and the lead point 1033 is contacted on the contact line 3013. The first and second docking sections 1031 and 1032 are formed to extend in opposite directions along both ends of the first docking piece 1034. First lead and connect section 1031, second lead and connect section 1032 and first lead connector 1034 are integrated into one piece. The first conductive connector 1034 is a non-circuit board structure. The first lead 1034 has a plate-like structure.

With continued reference to fig. 4 and 5, the second docking portion 1032 includes a support portion 1032a and a conducting portion 1032 b. The supporting segment 1032a is bent with respect to the conducting segment 1032 b. The supporting segment 1032a is connected to the first guiding element 1034, extends to a height away from the first guiding element 1034, and then is bent to a side of the first guiding element 1034 to form a conducting segment 1032 b. The conducting segment 1032b is suspended from the insulator 109. The conduction point 1033 is provided on the conduction section 1032 b. The conducting section 1032b is provided with at least two conducting points 1033 electrically connected to the first transmission portion 30.

Optionally, the at least two conductive points 1033 are contacted on the same contact line 3013, and the at least two conductive points 1033 have the same distance with respect to one end of the second conductive segment 1032, so as to ensure that two conductive points 1033 can be contacted on one contact line 3013 at the same time. The number of the conductive segments 1032b is at least two, the at least two conductive segments 1032b are simultaneously connected to the first supporting segment 1032a, and a gap is formed between adjacent conductive segments 1032 b. Specifically, the two docking sections 1032b are branched to form two conducting sections 1032b along the same position of the same support section 1032 a. Each conducting segment 1032b is correspondingly provided with a conducting contact 1033. The conductive contact 1033 is formed to protrude toward one side of the interposer 3011 relative to the conductive section 1032 b.

The first conductive segment 1031 of the first conductive member 103a protrudes from the conductive hole 1071 to be electrically connected to the magnetic attraction joint 40, so that a conductive element is not required to be disposed between the second conductive segment 1032 electrically connected to the first transmission part 30 and the first conductive segment 1031 to electrically connect the two. The conductive elements are typically PCB boards in existing data lines.

With reference to fig. 5 and fig. 6, the second conductive member 103b includes a third conductive segment 1036, a fourth conductive segment 1037, and a second conductive member 1038 connected to the third conductive segment 1036 and the fourth conductive segment 1037 and configured to be fixedly connected to the second insulating member 1092, the third conductive segment 1036 is electrically connected to the contact line 3013, and the fourth conductive segment 1037 is electrically connected to the first magnetic member 107. The first conductive member 103a and the second conductive member 103b are independently fixed to the second insulating member 109 so as to be insulated from each other.

The structure of the third docking section 1036 is the same as that of the second docking section 1032, and is not described again here. The third docking section 1036 and the second docking section 1032 are oppositely arranged to form a gap for plugging the interposer 3011, so that the docking points 1033 of the third docking section 1036 and the second docking section 1032 contact on two main surfaces 1033a of the interposer 3011. Alternatively, as a variation, the structure of the third docking section 1036 and the second docking section 1032 are arranged in a row, and the structure of the third docking section 1036 and the second docking section 1032 contact the same side of the interposer 3011.

The fourth conductive segment 1037 is a bent sheet-shaped structure, and has a substantially inverted "U" shape, one end thereof is connected to the second conductive element 1038, and the other end thereof is in contact with the first magnetic element 107 to achieve electrical conduction. Specifically, the first magnetic member 107 is bent after extending a height from the connection point of the second conductive member 1038 to a position far away from the end thereof, and then electrically contacts the first magnetic member 107.

In some other embodiments, the number of the first conductive members 103a may be more than 1. The number of the first conductive members 103a is 3, and each set of two first conductive members 103a and the second conductive member 103b are symmetrically arranged on the second insulating member 1092. Two first conductive members 103a in one group are: a "V +" pole and a "D-" pole; one first conductive member 103a and one second conductive member 103b of the other group are: a "D +" pole and a "V-" pole. At this time, the first conductive segments 1031 of the 3 first conductive members 103a all protrude from the conductive holes 1071 to electrically connect with the magnetic attraction joints 40. When the first transmission part 30 and the second transmission part 20 are electrically connected, the functions of charging and data transmission can be performed. Of course, the polarity distribution of the first conductive member 103a and the second conductive member 103b may be other combinations as long as it is ensured that the charging and data transmission functions are performed when they are connected to the first transmission part 30. In this case, two contact lines 3013 need to be provided on both main surfaces of the interposer 3011. In order to allow the conductive contacts 1033 of the first conductive member 103a and the second conductive member 103b to be smoothly connected to two different contact lines 3013 on the same main surface 1033a, the conductive contacts 1033 of each of the first conductive member 103a and the second conductive member 103b have different heights from the first magnetic member 107.

In some other embodiments, the number of the first conductive members 103a may be other.

Referring to fig. 6 and 7, the fixing base 101 includes a first fixing portion 1011 and a second fixing portion 1012 oppositely disposed, an accommodating adapter plate 3011 and a fastening groove 1014 for the conductive member 103 to extend out are formed between the first fixing portion 1011 and the second fixing portion 1012, and at least one of the first fixing portion 1011 and the second fixing portion 1012 is provided with a clip 1013. The clamping piece 1013 has a certain elasticity relative to the first fixing portion 1011 or the second fixing portion 1012, that is, the clamping piece has a mobility relative to the first fixing portion 1011 or the second fixing portion 1012, so that the adaptor plate 3011 can be well clamped and the insertion and assembly of the adaptor plate 3011 are facilitated. In the present embodiment, the clip 1013 is provided on each of the first fixing portion 1011 and the second fixing portion 1012. The two clamping pieces 1013 are oppositely disposed to clamp the adaptor plate 3011 and enable the adaptor plate 3011 to rotate relatively.

The first fixing portion 1011 and the second fixing portion 1012 are provided with a cavity for accommodating the conductive member 103, and the clip 1013 is formed to extend along an inner wall of the cavity. The first fixing portion 1011 and the second fixing portion 1012 include a top portion 1017 and side portions 1015 at both sides of the top portion, and the clip 1013 is formed by extending downward along the top portion 1017 and has a gap with the two side portions 1015, so that the clip 1013 is relatively suspended and thus has elasticity.

Referring to fig. 1, 6 and 7, in order to ensure the smooth rotation connection between the adapting plate 3011 and the clamping pieces 1013, a connecting column 1016 is disposed on at least one of the two clamping pieces 1013, and an adapting hole 3018 is disposed on the adapting plate 3011. The connecting column 1016 is clamped in the switching hole 3018, so that the switching plate 3011 is connected around the connecting column 1016 in a rotating mode. In order to improve the convenience of transferring the adapting plate 3011 to the fixing seat 101, connecting columns 1016 are arranged on the two clamping pieces 1013, and the connecting columns 1016 are formed on the surfaces of the clamping pieces 1013 in a manner of protruding oppositely. A guide ramp 1019 is provided on the connecting post 1016 to facilitate snapping the connecting post 1016 into the through-hole 3018.

Further, when only one clip 1013 is provided with the connection column 1016, the other clip 1013 is provided with a limiting hole (not shown) corresponding to the connection column 1016 to limit the connection column 1016.

When the connecting column 1016 is not arranged on each of the two clamping pieces 1013, the strength of the clamping pieces 1013 is improved, and the clamping force of the clamping pieces is improved, so that the adapter plate 3011 can be clamped relatively and rotate relatively.

As a variation, the interposer 3011 may be disposed on the second transmission section 20. The conductive member 103 is disposed on the first transmission part 30. In this case, the interposer 3011 needs to have a partial structure extending from the docking port 1071 in addition to the contact lines 3013. Or the PCB is arranged to conduct and connect the connection board 3011 and the thimble located in the connection hole 1071, and at this time, the conductive component 103 is directly electrically connected to the wire 3012 of the first transmission unit 30. The shape of the conductive member 103 may be adapted to be fixed to the connection seat 3017.

Referring to fig. 8, a second embodiment of the present invention provides a transmission line 10 a. The main differences with the transmission line 10 provided by the first embodiment described above are: the second transmission part 20a is a connector directly used for being inserted into a socket of an electronic device, and the second transmission part 20a includes any one of type-c, micro-usb or lightning connector. The second transmission unit 20a includes a connector 50 for inserting an electronic device and an adapter 60 for rotatably connecting with the first transmission unit 30 a. The conductive member 103 is disposed on the adapting portion 60, the connector portion 50 is disposed with a contact portion 501, and the contact portion 501 is used for being inserted into a socket of an electronic device and electrically connected to the electronic device. At this time, a PCB is not required to be disposed between the connector portion 50 and the adapter portion 60, and the conductive member 103 directly extends to the contact portion 501 to be electrically connected with the contact portion. Or the contact portion 501 is provided integrally with the conductive member 103.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and all modifications, equivalents and improvements made within the principles of the present invention are intended to be included within the scope of the present invention.

Compared with the prior art, the utility model provides a transmission line has following beneficial effect:

1. a transmission line is used for charging and/or data transmission of electronic equipment and comprises a first transmission part and a second transmission part which are electrically connected, wherein the first transmission part is used for receiving electric signals and/or data signals, and the second transmission part is used for being magnetically connected with a magnetic-type connector inserted into the electronic equipment; the second transmission part comprises a first conductive piece and a first magnetic piece, the first conductive piece comprises a first guide connection section, a second guide connection section and a first guide connection piece for connecting the first guide connection section and the second guide connection section, and the first guide connection section and the second guide connection section are positioned on two opposite sides of the first guide connection piece; the first magnetic piece is provided with a guide connection hole, and the first guide connection section extends out of the guide connection hole and is electrically connected with the magnetic-type connector; the second conductive connecting section is used for being electrically connected with the first transmission part; the first conductive connection section and the second conductive connection section which are respectively in electrical conductive connection with the first transmission part and the second transmission part are arranged into two components connected through the first conductive connection piece, and a conductive connection element similar to a PCB does not need to be arranged between the first conductive connection section and the second conductive connection section to conduct the first conductive connection section and the second conductive connection section, so that the components of the transmission line can be well reduced, the cost is saved, the preparation process can be saved, and the production efficiency is improved.

2. The second transmission part is used for being magnetically attracted and connected with a magnetic type connector inserted into the electronic equipment, the second transmission part further comprises a first magnetic part, the first magnetic part is provided with a guide hole, the first guide connection section extends out of the guide hole and is electrically connected with the magnetic type connector, in the magnetic type data line, the first guide connection section directly extends out of the guide hole, a guide connection element does not need to be arranged between the second guide connection section which is electrically connected with the end of the line body, and the preparation process can be further saved.

3. First transmission portion includes the keysets and with keysets electric connection's the line body, the second lead connect the section with the third lead connect the section with the keysets rotates to be connected, the second lead connect the section with third lead connects section electric connection, and in the data line is inhaled to rotation type magnetism, first lead connect the section and the second lead connect the section to form respectively in the both sides of first magnetic part with magnetism respectively inhale formula joint and first transmission portion electric connection, also need not set up and lead and connect the component, can further solve the complicated technical problem of rotary type data line preparation technology.

4. The second is led and is connect the section with the third is led to set up relatively between the section and is formed the space that supplies the keysets to peg graft or the second is led and is connect the section with the third is led and connect the section and set up one row, the second is led connect the section with the contact of third is led and is connect the section in the same one side of keysets, sets up the mode that sets up relatively with both, and the space of reduction transmission line that can be fine especially when the transmission line possesses the data transmission function, and it needs many thimble, and the mode that sets up relatively can be fine presss from both sides tight and practices thrift the space to the keysets.

5. When setting up the transmission line into the charging wire, the first section of leading that stretches out from leading the via hole is one, and its guarantee charging wire structure's that can be fine is small and exquisite nature.

6. The transmission line still includes first lead union piece, first lead union piece is connected first lead section and second lead section, first lead section and second lead section are for extending the formation to opposite direction along first lead union piece, guarantee that first conductive section and second lead section can be smooth and magnetism inhale formula joint and first transmission portion electric connection.

7. Set up the first electrically conductive piece of assurance that insulating part can be fine and electrically conduct between the piece mutually insulating with the second, simultaneously can be fine fix both, and can also be fine with first magnetism spare and first lead the insulating partition of section for do not disturb between the signal of the first electrically conductive piece and the second electrically conductive piece.

8. The second leads to connect the section with the third leads to connect the section and is provided with two and lead the contact point, and improvement second that can be fine leads to connect the section and the third leads the contact point of section and keysets, improves the stability of electrically conductive connection, first electrically conductive piece with the second electrically conductive piece is integrated into one piece, can further practice thrift preparation technology.

9. The convex connecting column is directly arranged on the fixing part and can be integrally formed with the fixing seat, so that the rotary connection of the rotary connecting plate by arranging an additional rotary shaft is avoided, and the preparation process is saved; when the adapter plate is installed, the adapter plate is clamped in, so that the installation steps can be saved, and the installation efficiency is improved

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and all modifications, equivalents and improvements made within the principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A transmission line, characterized by: the electronic equipment comprises a first transmission part and a second transmission part, wherein the first transmission part and the second transmission part are electrically connected, the first transmission part is used for receiving electric signals and/or data signals, and the second transmission part is used for being magnetically connected with a magnetic-type connector inserted into the electronic equipment;

the second transmission part comprises a first conductive piece and a first magnetic piece, the first conductive piece comprises a first guide connection section, a second guide connection section and a first guide connection piece for connecting the first guide connection section and the second guide connection section, and the first guide connection section and the second guide connection section are positioned on two opposite sides of the first guide connection piece;

the first magnetic piece is provided with a guide connection hole, and the first guide connection section extends out of the guide connection hole and is electrically connected with the magnetic-type connector; the second conductive connection section is used for being electrically connected with the first transmission part.

2. The transmission line of claim 1, wherein: the first guide connecting piece is of a non-circuit board structure.

3. The transmission line of claim 2, wherein: the second transmission part further comprises a second conductive piece, the second conductive piece comprises a third conductive section and a fourth conductive section, the third conductive section is electrically connected with the first transmission part, and the fourth conductive section is electrically connected with the first magnetic piece.

4. The transmission line of claim 3, wherein: the first transmission part comprises an adapter plate and a line body electrically connected with the adapter plate, and the second guide connection section and the third guide connection section are rotatably connected with the adapter plate.

5. The transmission line of claim 4, wherein: the second guide connection section and the third guide connection section are oppositely arranged to form a space for the adapter plate to be inserted or the second guide connection section and the third guide connection section are arranged in a row, and the second guide connection section and the third guide connection section are contacted on the same side of the adapter plate.

6. The transmission line of claim 5, wherein: the transmission line is the charging wire, first electrically conductive piece sets up to 1, the second electrically conductive piece sets up to 1, the keysets includes the arc structure, the keysets includes two relative main surfaces, at least one of them be provided with the contact circuit on the main surface, every the quantity of the contact circuit on the main surface is 1 at least, when every the quantity of the contact circuit on the main surface is greater than or equal to 2, the contact circuit on the same main surface is the form setting of concentric circles, the second lead connect section with the third lead connect section with contact circuit electric connection.

7. The transmission line of claim 3, wherein: the first guide connection section is of a sheet structure, and the first guide connection section and the second guide connection section are formed by extending along two ends of the first guide connection piece in opposite directions.

8. The transmission line of claim 7, wherein: the second transmission part further comprises an insulating part, the insulating part comprises a first insulating part and a second insulating part, the first insulating part is located in the conducting hole, the second insulating part is located on one side, close to the first transmission part, of the first magnetic part, the first insulating part is arranged in the conducting hole, the first conducting section and the first magnetic part are separated in an insulating mode, the second insulating part is located on one side, close to the first transmission part, of the first magnetic part, and the first conducting part and the second conducting part are fixed and insulated.

9. The transmission line of claim 8, wherein: the first conductive piece and the second conductive piece are integrally formed.

10. The transmission line according to any one of claims 3 to 9, characterized in that: the second transmission portion still includes the fixing base, the fixing base cup joints first electrically conductive with the electrically conductive piece of second, the fixing base includes first fixed part and second fixed part, form the holding keysets between first fixed part and the second fixed part and supply the second to lead to connect the section with the joint groove that the section stretches out is led to the third, first fixed part with at least one of second fixed part is provided with the clamping piece, be provided with the protruding spliced pole on the clamping piece surface on the clamping piece, the keysets is provided with the switching hole, the spliced pole penetrates the switching hole.

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