CN202695767U - Improved structure of USB3.0 two-way female socket connector - Google Patents

Abstract

The utility model relates to a USB3.0 two-way socket female connector improvement structure, belong to the electron class, by a two-way shared ground connection transmission conductor and first signal transmission conductor, the second signal transmission conductor, first differential signal transmission conductor, the second differential signal transmission conductor, the third ground connection transmission conductor, the third differential signal transmission conductor, the fourth differential signal transmission conductor, first power transmission conductor, the third signal transmission conductor, the fourth signal transmission conductor, the second power transmission conductor, the fourth ground connection transmission conductor, the fifth differential signal transmission conductor, the sixth differential signal transmission conductor, seventh differential signal transmission conductor and the eighth differential signal transmission conductor, make USB male connector all can switch on the advantage of action when the utility model discloses female connector is planted in forward or backward.

Description

Improved structure of USB3.0 two-way female socket connector

technical field

The utility model relates to electronics, in order to provide a connector, in particular to an improved structure of a USB3.0 two-way socket female connector which can conduct conduction action when the male head of the USB connector is inserted forwardly or reversely.

Background technique

At present, connectors are widely used, including USB and other connectors, while USB3.0 connectors are constantly improving and advancing, and at the same time increase their transmission speed.

Generally, the existing USB3.0 female connector is provided with a plug interface, and there is a tongue in the plug interface, and several metal conductors are arranged on the tongue, through which these metal conductors can be inserted into the male connector, and the tongue The position of the tab is located near one of the side walls of the socket, which is not in the middle, and the male connector will be differentially connected to the metal conductor on the tongue by the associated partition during the insertion process to complete A USB3.0 female connector for data transmission purposes.

However, when the above-mentioned existing USB3.0 female connector is used, there are indeed the following problems and deficiencies that need to be improved:

Because the tongue of the USB3.0 female connector is located adjacent to one of the side walls of the socket, when the male connector is inserted in reverse, it will also fail to insert. If the position of the tongue is moved to the middle and the male If the male connector is inserted backwards, the male connector cannot be electrically connected to the metal conductor. Therefore, the user must first observe the position of the tongue of the USB3.0 female connector before adjusting the male connector. The orientation of the device is inserted in the forward direction.

Utility model content

The main purpose of this utility model is to provide an improved structure of a USB3.0 two-way female socket connector, through the setting and special arrangement of several transmission conductors, the USB male connector can be inserted in the forward direction or reversed. The advantage of conduction action can be achieved when the female connector of the utility model is inserted in any direction.

In order to achieve the above purpose, the main structure of the utility model includes a ground transmission conductor, a first signal transmission conductor, a second signal transmission conductor, a first differential signal transmission conductor, a second differential signal transmission conductor, a third ground transmission conductor, a third Differential signal transmission conductor, fourth differential signal transmission conductor, first power transmission conductor, third signal transmission conductor, fourth signal transmission conductor, second power transmission conductor, fourth ground transmission conductor, fifth differential signal transmission conductor, fourth The six differential signal transmission conductors, the seventh differential signal transmission conductor and the eighth differential signal transmission conductor, when the user inserts the USB male connector in the forward direction, the metal transmission conductor on the USB male connector is in contact with the USB male connector. a ground transmission conductor, a first signal transmission conductor, a second signal transmission conductor, a first differential signal transmission conductor, a second differential signal transmission conductor, a third ground transmission conductor, a third differential signal transmission conductor, a fourth differential signal transmission conductor, and The first power transmission conductor is in electrical contact and conduction. If the user inserts the USB male connector in reverse, the metal transmission conductor is connected to the ground transmission conductor, the third signal transmission conductor, the fourth signal transmission conductor, the second The power transmission conductor, the fourth ground transmission conductor, the fifth differential signal transmission conductor, the sixth differential signal transmission conductor, the seventh differential signal transmission conductor and the eighth differential signal transmission conductor are in electrical contact and conduction, so as to achieve the USB male head The advantage that the connector can be electrically conducted regardless of whether it is inserted forward or reversed.

The utility model has the advantage that: through the setting and special arrangement of several transmission conductors, the USB male connector can be turned on when it is inserted forwardly or reversely inserted into the female connector of the utility model. The advantages.

Description of drawings

Fig. 1 is a perspective view of a preferred embodiment of the utility model.

Fig. 2 is a cross-sectional view of a preferred embodiment of the present invention.

Fig. 3 is a partial schematic diagram 1 of a preferred embodiment of the present invention.

Fig. 4 is a partial schematic diagram II of a preferred embodiment of the present invention.

Fig. 5 is a schematic diagram of the implementation of the USB male connector of the present invention inserted in the forward direction.

Fig. 6 is a schematic diagram of implementation of reverse insertion of the USB male connector of the present invention.

Fig. 7 is a schematic diagram of the implementation of the utility model combined with a printed circuit board.

Fig. 8 is a schematic diagram of the implementation of the connection of the printed circuit board with the transfer terminal group of the present invention.

Fig. 9 is a partial schematic diagram 1 of yet another preferred embodiment of the present invention.

Fig. 10 is a second partial schematic diagram of yet another preferred embodiment of the present invention.

Detailed ways

As shown in accompanying drawing 1 to accompanying drawing 4, it is the perspective view, sectional view, partial schematic diagram of preferred embodiment of the present utility model, can clearly find out that the main structure of the present utility model comprises from the figure:

a first insulating substrate 1;

A grounding transmission conductor 20 arranged on the first insulating base 1 has a first grounding contact portion 201 in a reversely bent shape at one end, and the first grounding contact portion 201 extends from one end to a first The ground extension part 202 and the second ground extension part 203, the first ground extension part 202 is provided with a first ground bending part 2021 and a first ground welding part 2022, and the second ground extension part 203 is provided with a The first grounding bending portion 2021 bends in the opposite direction to the second grounding bending portion 2031 and a second grounding welding portion 2032 , and the other end of the grounding transmission conductor 20 is bent in the opposite direction to form a second grounding contact portion 204 ;

A first signal transmission conductor 21 disposed on the first insulating base 1 and between the first ground extension 202 and the second ground extension 203, the first signal transmission conductor 21 is provided with a A ground bending portion 2021 is bent toward the first signal bending portion 211 in the same direction, and one end of the first signal transmission conductor 21 is provided with a first signal welding portion 212;

A second signal transmission conductor 22 disposed on the first insulating substrate 1 and between the first signal transmission conductor 21 and the second ground extension 203, the second signal transmission conductor 22 is provided with a A signal bending portion 211 is bent toward the second signal bending portion 221 in the same direction, and one end of the second signal transmission conductor 22 is provided with a second signal welding portion 222;

A first differential signal transmission conductor 23 disposed on the first insulating substrate 1 and located on one side of the ground transmission conductor 20, the first differential signal transmission conductor 23 is provided with a A curved first differential signal bending portion 231, and one end of the first differential signal transmission conductor 23 is provided with a first differential signal welding portion 232 located on the side of the first grounding welding portion 2022 away from the first signal welding portion 212;

A second differential signal transmission conductor 24 located on the first insulating substrate 1 and located on the side of the first differential signal transmission conductor 23 away from the ground transmission conductor 20, the second differential signal transmission conductor 24 is provided with a The first differential signal bending portion 231 bends toward the second differential signal bending portion 241 in the same direction, and one end of the second differential signal transmission conductor 24 is provided with a second differential signal welding portion 242;

A third ground transmission conductor 25 located on the first insulating substrate 1 and located on the side of the second differential signal transmission conductor 24 away from the first differential signal transmission conductor 23, the third ground transmission conductor 25 is provided with a The second differential signal bending portion 241 is bent toward the third grounding bending portion 251 in the same direction, and one end of the third grounding transmission conductor 25 is provided with a third grounding welding portion 252;

A third differential signal transmission conductor 26 located on the first insulating substrate 1 and located on the side of the ground transmission conductor 20 away from the first differential signal transmission conductor 23, the third differential signal transmission conductor 26 is provided with a The second ground bending portion 2031 is bent toward the third differential signal bending portion 261 in the same direction, and one end of the third differential signal transmission conductor 26 is provided with a third differential signal welding portion 262;

A fourth differential signal transmission conductor 27 located on the first insulating substrate 1 and located on the side of the third differential signal transmission conductor 26 away from the ground transmission conductor 20, the fourth differential signal transmission conductor 27 is provided with a The third differential signal bending portion 261 bends towards the fourth differential signal bending portion 271 in the same direction, and one end of the fourth differential signal transmission conductor 27 is provided with a fourth differential signal welding portion 272;

A first power transmission conductor 28 located on the first insulating substrate 1 and located on the side of the fourth differential signal transmission conductor 27 away from the third differential signal transmission conductor 26, the first power transmission conductor 28 is provided with a The fourth differential signal bending portion 271 bends in the same direction as the first power bending portion 281, and one end of the first power transmission conductor 28 is provided with a first power welding portion 282;

A second insulating base 3 stacked and combined with the first insulating base 1;

A third signal transmission conductor 40 disposed on the second insulating base 3 and located on one side of the first signal transmission conductor 21, the third signal transmission conductor 40 is provided with a bending portion opposite to the first signal bending portion 211 The third signal bending part 401, and one end of the third signal transmission conductor 40 is provided with a third signal welding part 402 between the second signal welding part 222 and the second grounding welding part 2032;

A fourth signal transmission conductor 41 disposed on the second insulating base 3 and located on one side of the second signal transmission conductor 22, the fourth signal transmission conductor 41 is provided with a bending portion 401 in the same direction as the third signal transmission conductor The fourth signal bending part 411, and one end of the fourth signal transmission conductor 41 is provided with a fourth signal welding part 412 between the third signal welding part 402 and the second grounding welding part 2032;

A second power transmission conductor 42 disposed on the second insulating base 3 and located on one side of the third ground transmission conductor 25, the second power transmission conductor 42 is provided with a bending portion 251 bent in the same direction as the third ground transmission conductor 251 The second power supply bending part 421, and one end of the second power transmission conductor 42 is provided with a second power supply welding part 422 between the second differential signal welding part 242 and the third ground welding part 252;

A fourth ground transmission conductor 43 disposed on the second insulating base 3 and located on one side of the first power transmission conductor 28, the fourth ground transmission conductor 43 is provided with a bending portion 281 that is bent in the same direction as the first power supply bending portion 281 The fourth ground bending part 431, and one end of the fourth ground transmission conductor 43 is provided with a fourth ground welding part 432 between the fourth differential signal welding part 272 and the first power welding part 282;

A fifth differential signal transmission conductor 44 disposed on the second insulating substrate 3 and located on one side of the first differential signal transmission conductor 23, the fifth differential signal transmission conductor 44 is provided with a bending portion 231 connected to the first differential signal transmission conductor The fifth differential signal bending portion 441 bent in the same direction, and the fifth differential signal bending portion 441 extends to one end to provide a fifth differential signal extending portion 442 on one side of the second power transmission conductor 42 , and the first One end of the five differential signal extension part 442 is provided with a fifth differential signal welding part 443 located between the second power supply welding part 422 and the third ground welding part 252 ;

A sixth differential signal transmission conductor 45 arranged on the second insulating substrate 3, located on one side of the second differential signal transmission conductor 24, and parallel to the fifth differential signal transmission conductor 44, the sixth differential signal transmission conductor 45 is provided with a sixth differential signal bending portion 451 bent in the same direction as the fifth differential signal bending portion 441, and the sixth differential signal bending portion 451 extends toward one end to provide a The sixth differential signal extension 452 on one side of the second power transmission conductor 42, and one end of the sixth differential signal extension 452 is provided with a connection between the fifth differential signal soldering portion 443 and the third ground soldering portion 252. The sixth differential signal welding part 453;

A seventh differential signal transmission conductor 46 disposed on the second insulating substrate 3 and located on one side of the third differential signal transmission conductor 26, the seventh differential signal transmission conductor 46 is provided with a bending portion 261 connected to the third differential signal transmission conductor The seventh differential signal bending portion 461 bent in the same direction, and the seventh differential signal bending portion 461 extends toward one end to provide a seventh differential signal extending portion 462 on one side of the fourth ground transmission conductor 43 , and the first One end of the seven differential signal extension portion 462 is provided with a seventh differential signal soldering portion 463 between the fourth grounding soldering portion 432 and the first power soldering portion 282 ;

An eighth differential signal transmission conductor 47 arranged on the second insulating substrate 3, located on one side of the fourth differential signal transmission conductor 27, and parallel to the seventh differential signal transmission conductor 46, the eighth differential signal transmission conductor 47 is provided with an eighth differential signal bending portion 471 bent in the same direction as the seventh differential signal bending portion 461, and the eighth differential signal bending portion 471 extends toward one end to provide a The eighth differential signal extension 472 on one side of the fourth ground transmission conductor 43, and one end of the eighth differential signal extension 472 is provided with a connection between the seventh differential signal welding portion 463 and the first power supply welding portion 282. The eighth differential signal welding part 473; and

A shielding shell 5 , the shielding shell 5 covers the first insulating base 1 and the second insulating base 3 .

By above-mentioned structure, explain as follows with regard to the use situation of the present utility model hereby:

As shown in accompanying drawings 1 to 6, it is a perspective view, a cross-sectional view, a partial schematic diagram of a preferred embodiment of the present invention, a schematic diagram of the implementation of the USB male connector inserted in the forward direction, and a USB male connector inserted in the reverse direction. Implementation schematic diagram, it can be clearly seen from the figure that when the USB male connector 6 is inserted into the female connector of the present utility model in the forward direction, the metal transmission conductor on the USB male connector 6 is connected to the grounding transmission conductor. 20. First signal transmission conductor 21, second signal transmission conductor 22, first differential signal transmission conductor 23, second differential signal transmission conductor 24, third ground transmission conductor 25, third differential signal transmission conductor 26, fourth differential signal transmission conductor The signal transmission conductor 27 and the first power transmission conductor 28 are electrically contacted and conducted. If the USB male connector 6 is inserted into the female connector of the present utility model in reverse, the metal transmission on the USB male connector 6 will The conductor is connected to the ground transmission conductor 20, the third signal transmission conductor 40, the fourth signal transmission conductor 41, the second power transmission conductor 42, the fourth ground transmission conductor 43, the fifth differential signal transmission conductor 44, and the sixth differential signal transmission conductor. 45. The seventh differential signal transmission conductor 46 is in electrical contact with the eighth differential signal transmission conductor 47, and it can be clearly seen from the figure that the ground transmission conductor 20 is inserted forward or reversed as the USB male connector 6 The commonly used transmission conductor is inserted, so the utility model provides the advantage that both directions of insertion can be conducted.

As shown in accompanying drawing 7, it is a schematic diagram of the implementation of the utility model combined with a printed circuit board. It can be clearly seen from the figure that the ground transmission conductor, the first signal transmission conductor, the second signal transmission conductor, and the first differential signal transmission conductor , the second differential signal transmission conductor, the third ground transmission conductor, the third differential signal transmission conductor, the fourth differential signal transmission conductor, the first power transmission conductor, the third signal transmission conductor, the fourth signal transmission conductor, the second power transmission conductor The conductor, the fourth grounding transmission conductor, the fifth differential signal transmission conductor, the sixth differential signal transmission conductor, the seventh differential signal transmission conductor and the eighth differential signal transmission conductor are connected to a printed circuit board 7 at one end, and a printed circuit board 7 is connected to it. The method is single-row surface mount (SMT), single-row socket arrangement (DIP), double-row surface mount (SMT), double-row socket arrangement (DIP), upward bending extension (board), downward bending Bending extension (under the board), continuous bending extension (sinking board), and its board contains one of the flat on the board or the pad on the board, and the bottom of the board includes the flat on the board or the board One of the lower pad heights, and the sinking board includes one of the forward sinking board or the reverse sinking board, and the connection method can be vertical flat sticking, vertical padding, vertical sinking board, upright padding, upright flat One of sticking or upright sinking plate, and this figure is represented by continuous bending extension (sinking plate).

As shown in accompanying drawing 8, it is a schematic diagram of implementing a transfer terminal group connected to a printed circuit board of the present invention. It can be clearly seen from the figure that the printed circuit board 7 is further connected with a transfer terminal group 71, and the printed circuit board 7 is further connected with a transfer terminal group 71, and the printed circuit board The connection between the circuit board 7 and the transfer terminal group 71 can be one of surface mount (SMT), plug-in configuration (DIP) or splint configuration (Clamp). This figure is represented by plug-in configuration (DIP) .

As shown in accompanying drawing 9 and accompanying drawing 10, it is partial schematic diagram 1 and 2 of another preferred embodiment of the present utility model, can be seen clearly from the figure, mainly comprises:

a first insulating matrix;

A grounding transmission conductor 20a provided on the first insulating substrate, one end of which is provided with a first grounding contact portion 201a in the form of reverse bending, and the first grounding contact portion 201a is branched from one end and extended with first grounding contact portions respectively. The extension part 202a and the second ground extension part 203a, the first ground extension part 202a is provided with a first ground bending part 2021a and a first ground welding part 2022a, and the second ground extension part 203a is provided with a A second grounding bending portion 2031a and a second grounding welding portion 2032a bent from a grounding bending portion 2021a in the opposite direction, and the other end of the grounding transmission conductor 20a is bent in the opposite direction to form a second grounding contact portion 204a;

A first signal transmission conductor 21a disposed on the first insulating substrate and between the first ground extension 202a and the second ground extension 203a, the first signal transmission conductor 21a is provided with a The ground bending portion 2021a is a first signal bending portion 211a bent in the opposite direction, and one end of the first signal transmission conductor 21a is provided with a first signal welding portion 212a;

A second signal transmission conductor 22a located on the first insulating substrate and between the first signal transmission conductor 21a and the second ground extension 203a, the second signal transmission conductor 22a is provided with a The signal bending part 211a is bent toward the second signal bending part 221a in the same direction, and one end of the second signal transmission conductor 22a is provided with a second signal welding part 222a;

A first differential signal transmission conductor 23a disposed on the first insulating substrate and located on one side of the ground transmission conductor 20a, the first differential signal transmission conductor 23a is provided with a bending portion 2021a bent in the same direction as the first ground transmission conductor 20a The first differential signal bending portion 231a, and one end of the first differential signal transmission conductor 23a is provided with a first differential signal soldering portion 232a on the side of the first ground soldering portion 2022a away from the first signal soldering portion 212a;

A second differential signal transmission conductor 24a located on the first insulating substrate and located on the side of the first differential signal transmission conductor 23a away from the ground transmission conductor 20a, the second differential signal transmission conductor 24a is provided with a A differential signal bending portion 231a is bent toward the second differential signal bending portion 241a in the same direction, and one end of the second differential signal transmission conductor 24a is provided with a second differential signal welding portion 242a;

A third ground transmission conductor 25a located on the first insulating substrate and located on the side of the second differential signal transmission conductor 24a away from the first differential signal transmission conductor 23a, the third ground transmission conductor 25a is provided with a The second differential signal bending portion 241a bends toward the third grounding bending portion 251a in the same direction, and one end of the third grounding transmission conductor 25a is provided with a third grounding welding portion 252a;

A third differential signal transmission conductor 26a located on the first insulating substrate and located on the side of the ground transmission conductor 20a away from the first differential signal transmission conductor 23a, the third differential signal transmission conductor 26a is provided with a The grounding bending portion 2031a is a third differential signal bending portion 261a bent in the same direction, and a third differential signal welding portion 262a is provided at one end of the third differential signal transmission conductor 26a;

A fourth differential signal transmission conductor 27a located on the first insulating substrate and located on the side of the third differential signal transmission conductor 26a away from the ground transmission conductor 20a, the fourth differential signal transmission conductor 27a is provided with a The third differential signal bending portion 261a bends toward the fourth differential signal bending portion 271a in the same direction, and one end of the fourth differential signal transmission conductor 27a is provided with a fourth differential signal welding portion 272a;

A first power transmission conductor 28a located on the first insulating substrate and located on the side of the fourth differential signal transmission conductor 27a away from the third differential signal transmission conductor 26a, the first power transmission conductor 28a is provided with a The fourth differential signal bending portion 271a bends in the same direction as the first power bending portion 281a, and one end of the first power transmission conductor 28a is provided with a first power welding portion 282a;

a second insulating base stacked with the first insulating base;

A third signal transmission conductor 40a disposed on the second insulating substrate and located on one side of the first signal transmission conductor 21a, the third signal transmission conductor 40a is provided with a bending portion 211a opposite to the first signal transmission conductor a third signal bending portion 401a, and one end of the third signal transmission conductor 40a is provided with a third signal welding portion 402a between the first signal welding portion 212a and the first grounding welding portion 2022a;

A fourth signal transmission conductor 41a disposed on the second insulating substrate and located on one side of the second signal transmission conductor 22a, the fourth signal transmission conductor 41a is provided with a bending part 401a bent in the same direction as the third signal transmission conductor 41a a fourth signal bending part 411a, and one end of the fourth signal transmission conductor 41a is provided with a fourth signal welding part 412a between the third signal welding part 402a and the first signal welding part 212a;

A second power transmission conductor 42a disposed on the second insulating base and located on one side of the third ground transmission conductor 25a, the second power transmission conductor 42a is provided with a curved portion bent in the same direction as the third grounding bending portion 251a The second power supply bending part 421a, and one end of the second power transmission conductor 42a is provided with a second power supply welding part 422a between the second differential signal welding part 242a and the third ground welding part 252a;

A fourth ground transmission conductor 43a arranged on the second insulating substrate and located on one side of the first power supply transmission conductor 28a, the fourth ground transmission conductor 43a is provided with a curved portion 281a bent in the same direction as the first power supply bending portion 281a The fourth ground bending part 431a, and one end of the fourth ground transmission conductor 43a is provided with a fourth ground welding part 432a between the fourth differential signal welding part 272a and the first power welding part 282a;

A fifth differential signal transmission conductor 44a disposed on the second insulating substrate and located on one side of the first differential signal transmission conductor 23a, the fifth differential signal transmission conductor 44a is provided with a The fifth differential signal bending portion 441a bent in the same direction, and the fifth differential signal bending portion 441a extends to one end to provide a fifth differential signal extending portion 442a on one side of the second power transmission conductor 42a, and the fifth One end of the differential signal extension portion 442a is provided with a fifth differential signal soldering portion 443a located between the second power soldering portion 422a and the third grounding soldering portion 252a;

A sixth differential signal transmission conductor 45a arranged on the second insulating substrate, located on one side of the second differential signal transmission conductor 24a, and parallel to the fifth differential signal transmission conductor 44a, the sixth differential signal transmission conductor 45a There is a sixth differential signal bending portion 451a bent in the same direction as the fifth differential signal bending portion 441a, and the sixth differential signal bending portion 451a extends toward one end to provide a The sixth differential signal extension portion 452a on one side of the second power transmission conductor 42a, and one end of the sixth differential signal extension portion 452a is provided with a second differential signal welding portion 443a and the third grounding welding portion 252a. Six differential signal welding parts 453a;

A seventh differential signal transmission conductor 46a disposed on the second insulating substrate and located on one side of the third differential signal transmission conductor 26a, the seventh differential signal transmission conductor 46a is provided with a The seventh differential signal bending portion 461a bent in the same direction, and the seventh differential signal bending portion 461a extends to one end to provide a seventh differential signal extending portion 462a on one side of the fourth ground transmission conductor 43a, and the seventh One end of the differential signal extension portion 462a is provided with a seventh differential signal soldering portion 463a located between the fourth ground soldering portion 432a and the first power soldering portion 282a;

An eighth differential signal transmission conductor 47a arranged on the second insulating substrate, located on one side of the fourth differential signal transmission conductor 27a, and parallel to the seventh differential signal transmission conductor 46a, the eighth differential signal transmission conductor 47a There is an eighth differential signal bending portion 471a bent in the same direction as the seventh differential signal bending portion 461a, and the eighth differential signal bending portion 471a extends toward one end to provide a The eighth differential signal extension 472a on one side of the fourth ground transmission conductor 43a, and one end of the eighth differential signal extension 472a is provided with a first power supply welding portion 282a between the seventh differential signal welding portion 463a and the first power supply welding portion 282a. Eight differential signal welding parts 473a;

A shielding shell, the shielding shell wraps the first insulating base and the second insulating base.

The above ground transmission conductor 20a, first signal transmission conductor 21a, second signal transmission conductor 22a, first differential signal transmission conductor 23a, second differential signal transmission conductor 24a, third ground transmission conductor 25a, third differential signal transmission conductor Conductor 26a, fourth differential signal transmission conductor 27a, first power transmission conductor 28a, third signal transmission conductor 40a, fourth signal transmission conductor 41a, second power transmission conductor 42a, fourth ground transmission conductor 43a, fifth differential signal The transmission conductor 44a, the sixth differential signal transmission conductor 45a, the seventh differential signal transmission conductor 46a and the eighth differential signal transmission conductor 47a are jointly connected to a printed circuit board at one end, and the connection method is a single-row surface mount (SMT) ), single-row insertion (DIP), double-row surface mount (SMT), double-row insertion (DIP), upward bending extension (on board), downward bending extension (under the board), continuous bending One of the folding extensions (sinking boards), and the board contains one of the board flat or the board is raised, and the bottom of the board includes one of the board's flat or the board is raised, and the other The sinking board includes one of the forward sinking board or the reverse sinking board, and the connection method can be one of vertical flat sticking, vertical padding, vertical sinking board, vertical padding, vertical flat sticking or vertical sinking board, Furthermore, a transfer terminal set is further connected to the printed circuit board, and the transfer terminal set can be one of surface mount (SMT), plug-in arrangement (DIP) or clamp arrangement (Clamp).

Claims (10)

1. the two-way socket socket connector of USB3.0 structure-improved is characterized in that mainly comprising:

One ground connection transmission conductor, the one end is provided with first a ground connection contact site that is reverse bending form, this the first ground connection contact site is opened by an end yoke and is extended with respectively the first ground connection extension and the second ground connection extension, this the first ground connection extension is provided with one first ground connection bend and one first ground connection weld part, then be provided with on the second ground connection extension one with this first ground connection bend crooked the second ground connection bend and one second ground connection weld part in the opposite direction, the ground connection transmission conductor other end then is reverse bending and extends to form one second ground connection contact site again;

One the first signal transmission conductor between this first ground connection extension and this second ground connection extension, this the first signal transmission conductor be provided with one with this first ground connection bend towards the first signal bend of equidirectional bending, and this first signal transmission conductor one end is provided with one first signal weld part;

One the second signal transmission conductor between this first signal transmission conductor and this second ground connection extension, this the second signal transmission conductor be provided with one with this first signal bend towards the second signal bend of equidirectional bending, and this second signal transmission conductor one end is provided with one second signal weld part;

One is positioned at the first difference signal transmission conductor of this ground connection transmission conductor one side, this the first difference signal transmission conductor be provided with one with this first ground connection bend towards the first difference signal bend of equidirectional bending, and this first difference signal transmission conductor one end is provided with one and is positioned at the first difference signal weld part that this first ground connection weld part deviates from this first signal weld part side;

One is positioned at the second difference signal transmission conductor that this first difference signal transmission conductor deviates from this ground connection transmission conductor one side, this the second difference signal transmission conductor be provided with one with this first difference signal bend towards the second difference signal bend of equidirectional bending, and this second difference signal transmission conductor one end is provided with one second difference signal weld part;

One is positioned at the 3rd ground connection transmission conductor that this second difference signal transmission conductor deviates from this first difference signal transmission conductor one side, the 3rd ground connection transmission conductor be provided with one with this second difference signal bend towards the 3rd ground connection bend of equidirectional bending, and the 3rd ground connection transmission conductor one end is provided with one the 3rd ground connection weld part;

One is positioned at the 3rd difference signal transmission conductor that this ground connection transmission conductor deviates from the first difference signal transmission conductor one side, the 3rd difference signal transmission conductor be provided with one with this second ground connection bend towards the 3rd difference signal bend of equidirectional bending, and the 3rd difference signal transmission conductor one end is provided with one the 3rd difference signal weld part;

One is positioned at the 4th difference signal transmission conductor that the 3rd difference signal transmission conductor deviates from this ground connection transmission conductor one side, the 4th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 4th difference signal bend of equidirectional bending, and the 4th difference signal transmission conductor one end is provided with one the 4th difference signal weld part;

One is positioned at the first power delivery conductor that the 4th difference signal transmission conductor deviates from the 3rd difference signal transmission conductor one side, this the first power delivery conductor be provided with one with the 4th difference signal bend towards the first power supply bend of equidirectional bending, and this first power delivery conductor one end is provided with one first power supply weld part;

One is positioned at the 3rd signal transmission conductor of this first signal transmission conductor one side, the 3rd signal transmission conductor be provided with one with this first signal bend crooked the 3rd signal bend in the opposite direction, and the 3rd signal transmission conductor one end is provided with the 3rd a signal weld part between this second signal weld part and this second ground connection weld part;

One is positioned at the 4th signal transmission conductor of this second signal transmission conductor one side, the 4th signal transmission conductor be provided with one with the 3rd signal bend towards the 4th signal bend of equidirectional bending, and the 4th signal transmission conductor one end is provided with the 4th a signal weld part between the 3rd signal weld part and this second ground connection weld part;

One is positioned at the second source transmission conductor of the 3rd ground connection transmission conductor one side, this second source transmission conductor be provided with one with the 3rd ground connection bend towards the second source bend of equidirectional bending, and this second source transmission conductor one end is provided with a second source weld part between this second difference signal weld part and the 3rd ground connection weld part;

One is positioned at the 4th ground connection transmission conductor of this first power delivery conductor one side, the 4th ground connection transmission conductor be provided with one with this first power supply bend towards the 4th ground connection bend of equidirectional bending, and the 4th ground connection transmission conductor one end is provided with the 4th a ground connection weld part between the 4th difference signal weld part and the first power supply weld part;

One is positioned at the 5th difference signal transmission conductor of this first difference signal transmission conductor one side, the 5th difference signal transmission conductor be provided with one with this first difference signal bend towards the 5th difference signal bend of equidirectional bending, and the 5th difference signal bend extends to be provided with the 5th a difference signal extension that is positioned at this second source transmission conductor one side to an end, and the 5th difference signal extension one end is provided with the 5th a difference signal weld part between this second source weld part and the 3rd ground connection weld part;

One is positioned at this second difference signal transmission conductor one side, and with the 5th difference signal transmission conductor the 6th difference signal transmission conductor side by side, the 6th difference signal transmission conductor be provided with one with the 5th difference signal bend towards the 6th difference signal bend of equidirectional bending, and the 6th difference signal bend extends to be provided with one to an end and is positioned at the 6th difference signal extension that the 5th difference signal extension deviates from this second source transmission conductor one side, and the 6th difference signal extension one end is provided with the 6th a difference signal weld part between the 5th difference signal weld part and the 3rd ground connection weld part;

One is positioned at the 7th difference signal transmission conductor of the 3rd difference signal transmission conductor one side, the 7th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 7th difference signal bend of equidirectional bending, and the 7th difference signal bend extends to be provided with the 7th a difference signal extension that is positioned at the 4th ground connection transmission conductor one side to an end, and the 7th difference signal extension one end is provided with the 7th a difference signal weld part between the 4th ground connection weld part and this first power supply weld part;

One is positioned at the 4th difference signal transmission conductor one side, and with the 7th difference signal transmission conductor the 8th difference signal transmission conductor side by side, the 8th difference signal transmission conductor be provided with one with the 7th difference signal bend towards the 8th difference signal bend of equidirectional bending, and the 8th difference signal bend extends to be provided with one to an end and is positioned at the 8th difference signal extension that the 7th difference signal extension deviates from the 4th ground connection transmission conductor one side, and the 8th difference signal extension one end is provided with the 8th a difference signal weld part between the 7th difference signal weld part and this first power supply weld part.

2. the two-way socket socket connector of USB3.0 structure-improved is characterized in that mainly comprising:

One first insulating body;

One is located at the ground connection transmission conductor on this first insulating body, the one end is provided with first a ground connection contact site that is reverse bending form, this the first ground connection contact site is opened by an end yoke and is extended with respectively the first ground connection extension and the second ground connection extension, this the first ground connection extension is provided with one first ground connection bend and one first ground connection weld part, then be provided with on the second ground connection extension one with this first ground connection bend crooked the second ground connection bend and one second ground connection weld part in the opposite direction, the ground connection transmission conductor other end then is reverse bending and extends to form one second ground connection contact site again;

One is located on this first insulating body and the first signal transmission conductor between this first ground connection extension and this second ground connection extension, this the first signal transmission conductor be provided with one with this first ground connection bend towards the first signal bend of equidirectional bending, and this first signal transmission conductor one end is provided with one first signal weld part;

One is located on this first insulating body and the second signal transmission conductor between this first signal transmission conductor and this second ground connection extension, this the second signal transmission conductor be provided with one with this first signal bend towards the second signal bend of equidirectional bending, and this second signal transmission conductor one end is provided with one second signal weld part;

One is located on this first insulating body and is positioned at the first difference signal transmission conductor of this ground connection transmission conductor one side, this the first difference signal transmission conductor be provided with one with this first ground connection bend towards the first difference signal bend of equidirectional bending, and this first difference signal transmission conductor one end is provided with one and is positioned at the first difference signal weld part that this first ground connection weld part deviates from this first signal weld part side;

One is located on this first insulating body and is positioned at the second difference signal transmission conductor that this first difference signal transmission conductor deviates from this ground connection transmission conductor one side, this the second difference signal transmission conductor be provided with one with this first difference signal bend towards the second difference signal bend of equidirectional bending, and this second difference signal transmission conductor one end is provided with one second difference signal weld part;

One is located on this first insulating body and is positioned at the 3rd ground connection transmission conductor that this second difference signal transmission conductor deviates from this first difference signal transmission conductor one side, the 3rd ground connection transmission conductor be provided with one with this second difference signal bend towards the 3rd ground connection bend of equidirectional bending, and the 3rd ground connection transmission conductor one end is provided with one the 3rd ground connection weld part;

One is located on this first insulating body and is positioned at the 3rd difference signal transmission conductor that this ground connection transmission conductor deviates from the first difference signal transmission conductor one side, the 3rd difference signal transmission conductor be provided with one with this second ground connection bend towards the 3rd difference signal bend of equidirectional bending, and the 3rd difference signal transmission conductor one end is provided with one the 3rd difference signal weld part;

One is located on this first insulating body and is positioned at the 4th difference signal transmission conductor that the 3rd difference signal transmission conductor deviates from this ground connection transmission conductor one side, the 4th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 4th difference signal bend of equidirectional bending, and the 4th difference signal transmission conductor one end is provided with one the 4th difference signal weld part;

One is located on this first insulating body and is positioned at the first power delivery conductor that the 4th difference signal transmission conductor deviates from the 3rd difference signal transmission conductor one side, this the first power delivery conductor be provided with one with the 4th difference signal bend towards the first power supply bend of equidirectional bending, and this first power delivery conductor one end is provided with one first power supply weld part;

One second insulating body of being combined with this first insulating body storehouse;

One is located on this second insulating body and is positioned at the 3rd signal transmission conductor of this first signal transmission conductor one side, the 3rd signal transmission conductor be provided with one with this first signal bend crooked the 3rd signal bend in the opposite direction, and the 3rd signal transmission conductor one end is provided with the 3rd a signal weld part between this second signal weld part and this second ground connection weld part;

One is located on this second insulating body and is positioned at the 4th signal transmission conductor of this second signal transmission conductor one side, the 4th signal transmission conductor be provided with one with the 3rd signal bend towards the 4th signal bend of equidirectional bending, and the 4th signal transmission conductor one end is provided with the 4th a signal weld part between the 3rd signal weld part and this second ground connection weld part;

One is located on this second insulating body and is positioned at the second source transmission conductor of the 3rd ground connection transmission conductor one side, this second source transmission conductor be provided with one with the 3rd ground connection bend towards the second source bend of equidirectional bending, and this second source transmission conductor one end is provided with a second source weld part between this second difference signal weld part and the 3rd ground connection weld part;

One is located on this second insulating body and is positioned at the 4th ground connection transmission conductor of this first power delivery conductor one side, the 4th ground connection transmission conductor be provided with one with this first power supply bend towards the 4th ground connection bend of equidirectional bending, and the 4th ground connection transmission conductor one end is provided with the 4th a ground connection weld part between the 4th difference signal weld part and the first power supply weld part;

One is located on this second insulating body and is positioned at the 5th difference signal transmission conductor of this first difference signal transmission conductor one side, the 5th difference signal transmission conductor be provided with one with this first difference signal bend towards the 5th difference signal bend of equidirectional bending, and the 5th difference signal bend extends to be provided with the 5th a difference signal extension that is positioned at this second source transmission conductor one side to an end, and the 5th difference signal extension one end is provided with the 5th a difference signal weld part between this second source weld part and the 3rd ground connection weld part;

One is located on this second insulating body, and be positioned at this second difference signal transmission conductor simultaneously, and with the 5th difference signal transmission conductor the 6th difference signal transmission conductor side by side, the 6th difference signal transmission conductor be provided with one with the 5th difference signal bend towards the 6th difference signal bend of equidirectional bending, and the 6th difference signal bend extends to be provided with one to an end and is positioned at the 6th difference signal extension that the 5th difference signal extension deviates from this second source transmission conductor one side, and the 6th difference signal extension one end is provided with the 6th a difference signal weld part between the 5th difference signal weld part and the 3rd ground connection weld part;

One is located on this second insulating body and is positioned at the 7th difference signal transmission conductor of the 3rd difference signal transmission conductor one side, the 7th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 7th difference signal bend of equidirectional bending, and the 7th difference signal bend extends to be provided with the 7th a difference signal extension that is positioned at the 4th ground connection transmission conductor one side to an end, and the 7th difference signal extension one end is provided with the 7th a difference signal weld part between the 4th ground connection weld part and this first power supply weld part;

One is located on this second insulating body, and be positioned at the 4th difference signal transmission conductor simultaneously, and with the 7th difference signal transmission conductor the 8th difference signal transmission conductor side by side, the 8th difference signal transmission conductor be provided with one with the 7th difference signal bend towards the 8th difference signal bend of equidirectional bending, and the 8th difference signal bend extends to be provided with one to an end and is positioned at the 8th difference signal extension that the 7th difference signal extension deviates from the 4th ground connection transmission conductor one side, and the 8th difference signal extension one end is provided with the 8th a difference signal weld part between the 7th difference signal weld part and this first power supply weld part;

One shield shell that this first insulating body and this second insulating body are coated.

3. the two-way socket socket connector of USB3.0 according to claim 2 structure-improved, it is characterized in that: this ground connection transmission conductor wherein, the first signal transmission conductor, the second signal transmission conductor, the first difference signal transmission conductor, the second difference signal transmission conductor, the 3rd ground connection transmission conductor, the 3rd difference signal transmission conductor, the 4th difference signal transmission conductor, the first power delivery conductor, the 3rd signal transmission conductor, the 4th signal transmission conductor, the second source transmission conductor, the 4th ground connection transmission conductor, the 5th difference signal transmission conductor, the 6th difference signal transmission conductor, the 7th difference signal transmission conductor and the 8th difference signal transmission conductor connect jointly in an end place establishes a printed circuit board (PCB), it connects the mode of establishing and is upwards bending extension, bending is downwards extended, bending is extended one of them continuously, include on its plate again on smooth on the plate or the plate bed hedgehopping one of them, and include under its plate under smooth under the plate or the plate bed hedgehopping one of them, in addition its heavy plate include the heavy plate of forward or reverse sinking plate one of them, connect again the mode of establishing for vertically smooth, vertical bed hedgehopping, vertical heavy plate, upright bed hedgehopping, upright smooth or uprightly heavy plate one of them.

4. the two-way socket socket connector of USB3.0 according to claim 3 structure-improved, it is characterized in that: wherein further be equipped with the change-over terminal subgroup on this printed circuit board (PCB), and printed circuit board (PCB) and this change-over terminal subgroup connect the mode of establishing can be the surface attach SMT, peg graft arrange DIP or clamping plate arrange Clamp one of them.

5. the two-way socket socket connector of USB3.0 according to claim 3 structure-improved is characterized in that: wherein this connect the mode of establishing further can be single surface attach SMT, single grafting arrange DIP, double surface attach SMT or double grafting arrange DIP one of them.

6. the two-way socket socket connector of USB3.0 structure-improved is characterized in that mainly comprising:

One ground connection transmission conductor, the one end is provided with first a ground connection contact site that is reverse bending form, this the first ground connection contact site is opened by an end yoke and is extended with respectively the first ground connection extension and the second ground connection extension, this the first ground connection extension is provided with one first ground connection bend and one first ground connection weld part, then be provided with on the second ground connection extension one with this first ground connection bend crooked the second ground connection bend and one second ground connection weld part in the opposite direction, the ground connection transmission conductor other end then is reverse bending and extends to form one second ground connection contact site again;

One the first signal transmission conductor between this first ground connection extension and this second ground connection extension, this the first signal transmission conductor be provided with one with this first ground connection bend crooked the first signal bend in the opposite direction, and this first signal transmission conductor one end is provided with one first signal weld part;

One the second signal transmission conductor between this first signal transmission conductor and this second ground connection extension, this the second signal transmission conductor be provided with one with this first signal bend towards the second signal bend of equidirectional bending, and this second signal transmission conductor one end is provided with one second signal weld part;

One is positioned at the first difference signal transmission conductor of this ground connection transmission conductor one side, this the first difference signal transmission conductor be provided with one with this first ground connection bend towards the first difference signal bend of equidirectional bending, and this first difference signal transmission conductor one end is provided with one and is positioned at the first difference signal weld part that this first ground connection weld part deviates from this first signal weld part side;

One is positioned at the second difference signal transmission conductor that this first difference signal transmission conductor deviates from this ground connection transmission conductor one side, this the second difference signal transmission conductor be provided with one with this first difference signal bend towards the second difference signal bend of equidirectional bending, and this second difference signal transmission conductor one end is provided with one second difference signal weld part;

One is positioned at the 3rd ground connection transmission conductor that this second difference signal transmission conductor deviates from this first difference signal transmission conductor one side, the 3rd ground connection transmission conductor be provided with one with this second difference signal bend towards the 3rd ground connection bend of equidirectional bending, and the 3rd ground connection transmission conductor one end is provided with one the 3rd ground connection weld part;

One is positioned at the 3rd difference signal transmission conductor that this ground connection transmission conductor deviates from the first difference signal transmission conductor one side, the 3rd difference signal transmission conductor be provided with one with this second ground connection bend towards the 3rd difference signal bend of equidirectional bending, and the 3rd difference signal transmission conductor one end is provided with one the 3rd difference signal weld part;

One is positioned at the 4th difference signal transmission conductor that the 3rd difference signal transmission conductor deviates from this ground connection transmission conductor one side, the 4th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 4th difference signal bend of equidirectional bending, and the 4th difference signal transmission conductor one end is provided with one the 4th difference signal weld part;

One is positioned at the first power delivery conductor that the 4th difference signal transmission conductor deviates from the 3rd difference signal transmission conductor one side, this the first power delivery conductor be provided with one with the 4th difference signal bend towards the first power supply bend of equidirectional bending, and this first power delivery conductor one end is provided with one first power supply weld part;

One is positioned at the 3rd signal transmission conductor of this first signal transmission conductor one side, the 3rd signal transmission conductor be provided with one with this first signal bend crooked the 3rd signal bend in the opposite direction, and the 3rd signal transmission conductor one end is provided with the 3rd a signal weld part between this first signal weld part and this first ground connection weld part;

One is positioned at the 4th signal transmission conductor of this second signal transmission conductor one side, the 4th signal transmission conductor be provided with one with the 3rd signal bend towards the 4th signal bend of equidirectional bending, and the 4th signal transmission conductor one end is provided with the 4th a signal weld part between the 3rd signal weld part and this first signal weld part;

One is positioned at the second source transmission conductor of the 3rd ground connection transmission conductor one side, this second source transmission conductor be provided with one with the 3rd ground connection bend towards the second source bend of equidirectional bending, and this second source transmission conductor one end is provided with a second source weld part between this second difference signal weld part and the 3rd ground connection weld part;

One is positioned at the 4th ground connection transmission conductor of this first power delivery conductor one side, the 4th ground connection transmission conductor be provided with one with this first power supply bend towards the 4th ground connection bend of equidirectional bending, and the 4th ground connection transmission conductor one end is provided with the 4th a ground connection weld part between the 4th difference signal weld part and the first power supply weld part;

One is positioned at the 5th difference signal transmission conductor of this first difference signal transmission conductor one side, the 5th difference signal transmission conductor be provided with one with this first difference signal bend towards the 5th difference signal bend of equidirectional bending, and the 5th difference signal bend extends to be provided with the 5th a difference signal extension that is positioned at this second source transmission conductor one side to an end, and the 5th difference signal extension one end is provided with the 5th a difference signal weld part between this second source weld part and the 3rd ground connection weld part;

One is positioned at this second difference signal transmission conductor one side, and with the 5th difference signal transmission conductor the 6th difference signal transmission conductor side by side, the 6th difference signal transmission conductor be provided with one with the 5th difference signal bend towards the 6th difference signal bend of equidirectional bending, and the 6th difference signal bend extends to be provided with one to an end and is positioned at the 6th difference signal extension that the 5th difference signal extension deviates from this second source transmission conductor one side, and the 6th difference signal extension one end is provided with the 6th a difference signal weld part between the 5th difference signal weld part and the 3rd ground connection weld part;

One is positioned at the 7th difference signal transmission conductor of the 3rd difference signal transmission conductor one side, the 7th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 7th difference signal bend of equidirectional bending, and the 7th difference signal bend extends to be provided with the 7th a difference signal extension that is positioned at the 4th ground connection transmission conductor one side to an end, and the 7th difference signal extension one end is provided with the 7th a difference signal weld part between the 4th ground connection weld part and this first power supply weld part;

One is positioned at the 4th difference signal transmission conductor one side, and with the 7th difference signal transmission conductor the 8th difference signal transmission conductor side by side, the 8th difference signal transmission conductor be provided with one with the 7th difference signal bend towards the 8th difference signal bend of equidirectional bending, and the 8th difference signal bend extends to be provided with one to an end and is positioned at the 8th difference signal extension that the 7th difference signal extension deviates from the 4th ground connection transmission conductor one side, and the 8th difference signal extension one end is provided with the 8th a difference signal weld part between the 7th difference signal weld part and this first power supply weld part.

7. the two-way socket socket connector of USB3.0 structure-improved is characterized in that mainly comprising:

One first insulating body;

One is located at the ground connection transmission conductor on this first insulating body, the one end is provided with first a ground connection contact site that is reverse bending form, this the first ground connection contact site is opened by an end yoke and is extended with respectively the first ground connection extension and the second ground connection extension, this the first ground connection extension is provided with one first ground connection bend and one first ground connection weld part, then be provided with on the second ground connection extension one with this first ground connection bend crooked the second ground connection bend and one second ground connection weld part in the opposite direction, the ground connection transmission conductor other end then is reverse bending and extends to form one second ground connection contact site again;

One is located on this first insulating body and the first signal transmission conductor between this first ground connection extension and this second ground connection extension, this the first signal transmission conductor be provided with one with this first ground connection bend crooked the first signal bend in the opposite direction, and this first signal transmission conductor one end is provided with one first signal weld part;

One is located on this first insulating body and the second signal transmission conductor between this first signal transmission conductor and this second ground connection extension, this the second signal transmission conductor be provided with one with this first signal bend towards the second signal bend of equidirectional bending, and this second signal transmission conductor one end is provided with one second signal weld part;

One is located on this first insulating body and is positioned at the first difference signal transmission conductor of this ground connection transmission conductor one side, this the first difference signal transmission conductor be provided with one with this first ground connection bend towards the first difference signal bend of equidirectional bending, and this first difference signal transmission conductor one end is provided with one and is positioned at the first difference signal weld part that this first ground connection weld part deviates from this first signal weld part side;

One is located on this first insulating body and is positioned at the second difference signal transmission conductor that this first difference signal transmission conductor deviates from this ground connection transmission conductor one side, this the second difference signal transmission conductor be provided with one with this first difference signal bend towards the second difference signal bend of equidirectional bending, and this second difference signal transmission conductor one end is provided with one second difference signal weld part;

One is located on this first insulating body and is positioned at the 3rd ground connection transmission conductor that this second difference signal transmission conductor deviates from this first difference signal transmission conductor one side, the 3rd ground connection transmission conductor be provided with one with this second difference signal bend towards the 3rd ground connection bend of equidirectional bending, and the 3rd ground connection transmission conductor one end is provided with one the 3rd ground connection weld part;

One is located on this first insulating body and is positioned at the 3rd difference signal transmission conductor that this ground connection transmission conductor deviates from the first difference signal transmission conductor one side, the 3rd difference signal transmission conductor be provided with one with this second ground connection bend towards the 3rd difference signal bend of equidirectional bending, and the 3rd difference signal transmission conductor one end is provided with one the 3rd difference signal weld part;

One is located on this first insulating body and is positioned at the 4th difference signal transmission conductor that the 3rd difference signal transmission conductor deviates from this ground connection transmission conductor one side, the 4th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 4th difference signal bend of equidirectional bending, and the 4th difference signal transmission conductor one end is provided with one the 4th difference signal weld part;

One is located on this first insulating body and is positioned at the first power delivery conductor that the 4th difference signal transmission conductor deviates from the 3rd difference signal transmission conductor one side, this the first power delivery conductor be provided with one with the 4th difference signal bend towards the first power supply bend of equidirectional bending, and this first power delivery conductor one end is provided with one first power supply weld part;

One second insulating body of being combined with this first insulating body storehouse;

One is located on this second insulating body and is positioned at the 3rd signal transmission conductor of this first signal transmission conductor one side, the 3rd signal transmission conductor be provided with one with this first signal bend crooked the 3rd signal bend in the opposite direction, and the 3rd signal transmission conductor one end is provided with the 3rd a signal weld part between this first signal weld part and this first ground connection weld part;

One is located on this second insulating body and is positioned at the 4th signal transmission conductor of this second signal transmission conductor one side, the 4th signal transmission conductor be provided with one with the 3rd signal bend towards the 4th signal bend of equidirectional bending, and the 4th signal transmission conductor one end is provided with the 4th a signal weld part between the 3rd signal weld part and this first signal weld part;

One is located on this second insulating body and is positioned at the second source transmission conductor of the 3rd ground connection transmission conductor one side, this second source transmission conductor be provided with one with the 3rd ground connection bend towards the second source bend of equidirectional bending, and this second source transmission conductor one end is provided with a second source weld part between this second difference signal weld part and the 3rd ground connection weld part;

One is located on this second insulating body and is positioned at the 4th ground connection transmission conductor of this first power delivery conductor one side, the 4th ground connection transmission conductor be provided with one with this first power supply bend towards the 4th ground connection bend of equidirectional bending, and the 4th ground connection transmission conductor one end is provided with the 4th a ground connection weld part between the 4th difference signal weld part and the first power supply weld part;

One is located on this second insulating body and is positioned at the 5th difference signal transmission conductor of this first difference signal transmission conductor one side, the 5th difference signal transmission conductor be provided with one with this first difference signal bend towards the 5th difference signal bend of equidirectional bending, and the 5th difference signal bend extends to be provided with the 5th a difference signal extension that is positioned at this second source transmission conductor one side to an end, and the 5th difference signal extension one end is provided with the 5th a difference signal weld part between this second source weld part and the 3rd ground connection weld part;

One is located on this second insulating body, and be positioned at this second difference signal transmission conductor simultaneously, and with the 5th difference signal transmission conductor the 6th difference signal transmission conductor side by side, the 6th difference signal transmission conductor be provided with one with the 5th difference signal bend towards the 6th difference signal bend of equidirectional bending, and the 6th difference signal bend extends to be provided with one to an end and is positioned at the 6th difference signal extension that the 5th difference signal extension deviates from this second source transmission conductor one side, and the 6th difference signal extension one end is provided with the 6th a difference signal weld part between the 5th difference signal weld part and the 3rd ground connection weld part;

One is located on this second insulating body and is positioned at the 7th difference signal transmission conductor of the 3rd difference signal transmission conductor one side, the 7th difference signal transmission conductor be provided with one with the 3rd difference signal bend towards the 7th difference signal bend of equidirectional bending, and the 7th difference signal bend extends to be provided with the 7th a difference signal extension that is positioned at the 4th ground connection transmission conductor one side to an end, and the 7th difference signal extension one end is provided with the 7th a difference signal weld part between the 4th ground connection weld part and this first power supply weld part;

One is located on this second insulating body, and be positioned at the 4th difference signal transmission conductor simultaneously, and with the 7th difference signal transmission conductor the 8th difference signal transmission conductor side by side, the 8th difference signal transmission conductor be provided with one with the 7th difference signal bend towards the 8th difference signal bend of equidirectional bending, and the 8th difference signal bend extends to be provided with one to an end and is positioned at the 8th difference signal extension that the 7th difference signal extension deviates from the 4th ground connection transmission conductor one side, and the 8th difference signal extension one end is provided with the 8th a difference signal weld part between the 7th difference signal weld part and this first power supply weld part;

One shield shell that this first insulating body and this second insulating body are coated.

8. the two-way socket socket connector of USB3.0 according to claim 7 structure-improved, it is characterized in that: this ground connection transmission conductor wherein, the first signal transmission conductor, the second signal transmission conductor, the first difference signal transmission conductor, the second difference signal transmission conductor, the 3rd ground connection transmission conductor, the 3rd difference signal transmission conductor, the 4th difference signal transmission conductor, the first power delivery conductor, the 3rd signal transmission conductor, the 4th signal transmission conductor, the second source transmission conductor, the 4th ground connection transmission conductor, the 5th difference signal transmission conductor, the 6th difference signal transmission conductor, the 7th difference signal transmission conductor and the 8th difference signal transmission conductor connect jointly in an end place establishes a printed circuit board (PCB), it connects the mode of establishing and is upwards bending extension, bending is downwards extended, bending is extended one of them continuously, include on its plate again on smooth on the plate or the plate bed hedgehopping one of them, and include under its plate under smooth under the plate or the plate bed hedgehopping one of them, in addition its heavy plate include the heavy plate of forward or reverse sinking plate one of them, connect again the mode of establishing for vertically smooth, vertical bed hedgehopping, vertical heavy plate, upright bed hedgehopping, upright smooth or uprightly heavy plate one of them.

9. the two-way socket socket connector of USB3.0 according to claim 8 structure-improved, it is characterized in that: wherein further be equipped with the change-over terminal subgroup on this printed circuit board (PCB), this change-over terminal subgroup for the surface attach SMT, peg graft arrange DIP or clamping plate arrange Clamp one of them.

10. the two-way socket socket connector of USB3.0 according to claim 8 structure-improved is characterized in that: wherein this connect the mode of establishing further for single surface attach SMT, single grafting arrange DIP, double surface attach SMT or double grafting arrange DIP one of them.

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