WO2018045520A1

WO2018045520A1 - Structure of electrical connector

Info

Publication number: WO2018045520A1
Application number: PCT/CN2016/098372
Authority: WO
Inventors: 王秋文
Original assignee: 王秋文
Priority date: 2016-09-08
Filing date: 2016-09-08
Publication date: 2018-03-15

Abstract

A structure of an electrical connector mainly comprises a shielding housing (1), an insulation rubber group (2), a first transmission conductor group front-row contact portion (4), a first transmission conductor group back-row contact portion (42), a second transmission conductor group front-row contact portion (5), a second transmission conductor group back-row contact portion (52), a first plugging port (8), and a second plugging port (81). During the plugging of the connector, the connector can be plugged from the first plugging port (8), and is electrically connected to the first transmission conductor group front-row contact portion (4) and the second transmission conductor group front-row contact portion (5). The advantages of forwarding plugging and reverse plugging are achieved (an I/O connector interface); further, movable plugging can be achieved by means of a detachable lower insulation rubber (9), and the first transmission conductor group back-row contact portion (42) and the second transmission conductor group back-row contact portion (52) are connected to a flat cable (A) in a plugging manner without welding; in addition, more convenience is brought to a user when the unplugging is performed by means of elastic pushing portions (91) on two sides of the detachable lower insulation rubber (9).

Description

Electrical connector structure

技术领域Technical field

The present invention relates to an electrical connector, and more particularly to an electrical connector that can be quickly electrically connected to a flat cable without soldering and that can be inserted into the connector.

背景技术Background technique

A variety of different electronic devices have been developed to assist users in the use, and electronic devices include displays, computers, cameras, plug-and-play devices (portables), and the like, but in order to be able to read the electronic devices. The data or the signal link must have a corresponding matching connector, and the connector types of various electronic devices are different, for example, USB series, SIM series, MicroSIM, etc., respectively, must use a specific corresponding connection The device can be connected, so there will be multiple cables with different connectors.

In the case of an FPC connector, it is usually only used for signal links between internal devices. In the case of external I/O connectors, it is rare, and the FPC connector corresponds to an I/O connector. It is soldered to connect the flat cable to each other, which is very troublesome for maintenance or installation.

Therefore, how to solve the above-mentioned problems and deficiencies is the one that the inventors of the present invention and related manufacturers engaged in the industry desire to study and improve.

Therefore, in view of the above-mentioned deficiencies, the inventors of the present invention have collected relevant materials, and through multi-party evaluation and consideration, and through years of experience accumulated in the industry, through continuous trial and modification, finally designed such a quick and flat The cable is electrically conductive, more detachable, and the present invention is available for front and back insertion of the connector.

发明内容Summary of the invention

SUMMARY OF THE INVENTION It is an object of the present invention to provide a structure of an electrical connector that can be electrically connected to a flat cable, can be disassembled, and can be inserted into the connector.

In order to achieve the above object, the solution of the present invention is:

The structure of an electrical connector mainly includes: a shielding shell; at least one insulating colloid group housed in the shielding shell, having a tongue portion; and a first transmission conductor group combined with the tongue portion a row contact portion extending from the other end with a first transmission conductor group rear row contact portion; a front portion of the second transmission conductor group coupled to the tongue plate portion and located on the other side of the front row contact portion of the first transmission conductor group a row contact portion extending from the other end and having a second transmission conductor group rear row contact portion disposed horizontally in a row with the rear row contact portion of the first transmission conductor group; a front contact portion disposed in the first transmission conductor group And a first insertion interface at the front contact portion side of the second transmission conductor group; a second insertion interface disposed at the rear side contact portion of the first transmission conductor group and the rear contact portion side of the second transmission conductor group ;

The first transmission conductor group front row contact portion is an I/O connector interface, and the first transmission conductor group rear row contact portion is for a flat cable connection;

The second transmission conductor group front row contact portion is an I/O connector interface, and the second transmission conductor group rear row contact portion is for a flat cable connection.

A detachable lower insulating colloid is disposed adjacent to the lower portion of the insulating plug, and the lower insulating colloid has at least one elastic urging portion on each side thereof, and one side of the lower insulating colloid has at least one for holding Convex.

The insulating colloid group includes a first insulating colloid and a second insulating colloid disposed on a side of the first insulating colloid, and the first insulating colloid and the second insulating colloid are combined to form the tongue portion, and the insulating colloid Forming a space for providing an inner shielding shell, and a first insulating colloid and the second insulating colloid are disposed between the first transmission conductor set front row contact portion and the second transmission conductor group The shielding partition of the row contact portion is provided with a detachable lower insulating colloid adjacent to the lower portion of the second plug connector.

The first transmission conductor group rear row contact portion includes a first transmission conductor rear row first ground contact portion, and a first transmission conductor located at a side of the first transmission contact rear first ground contact portion a differential signal contact portion, a second differential signal contact portion on the first transmission conductor side of the first differential signal contact portion on the rear side of the first transmission conductor, and a second differential signal contact portion on the rear side of the first transmission conductor a first transmission contact portion on a side of the first transmission conductor, a first transmission conductor on a side of the first power supply contact portion of the first transmission conductor, and a first detection contact portion on the rear side of the first transmission conductor a first transmission contact portion on the first detection contact side of the first transmission contact portion of the first transmission contact portion, and a first transmission conductor on the side of the first signal contact portion on the rear side of the first transmission conductor a second signal contact portion, a second detection contact portion on the second transmission contact side of the second transmission contact portion of the first transmission conductor, and a second detection contact portion on the rear side of the first transmission conductor First transmission guide a second power contact portion in the rear row, a third differential signal contact portion on the first transmission conductor side of the second power supply contact portion on the rear side of the first transmission conductor, and a third differential signal on the rear side of the first transmission conductor a fourth differential signal contact portion on the first transmission conductor side of the signal contact portion, and a second ground contact portion on the rear side of the first transmission conductor on the side of the fourth differential signal contact portion of the first transmission conductor; The second transmission conductor group rear row contact portion includes a second transmission conductor on a side of the first ground contact portion of the first transmission conductor, a first ground contact portion, and a second transmission conductor at the rear. a second differential signal contact portion on the second transmission conductor side of the ground contact portion, a fifth differential signal contact portion on the rear side of the second transmission conductor, and a first differential signal contact portion on the rear side of the first transmission conductor a second differential signal contact portion in the rear of the second transmission conductor, a second transmission conductor on a side of the first power supply contact portion of the first transmission conductor, a first power supply contact portion, and a second transmission a second transmission conductor on a side of the first power contact portion of the rear row of the conductor, a first detection contact portion on the rear side, and a second transmission conductor on a side of the first detection contact portion on the rear side of the second transmission conductor a signal contact portion, a second signal contact portion on the second transmission conductor side of the first signal contact portion on the rear side of the second transmission conductor, a second signal contact portion on the rear side of the second transmission conductor, and a second signal contact portion on the second transmission conductor a second transmission conductor between the first detection contact portion of the rear of the transmission conductor, a first detection contact portion, and a second transmission conductor rear side of the second power supply contact portion of the rear of the first transmission conductor a second power contact portion, a second differential signal contact portion on the second transmission conductor side of the second power supply contact portion on the rear side of the second transmission conductor, and a seventh differential signal contact portion on the rear side of the second transmission conductor a second differential signal contact portion of the second transmission conductor between the second transmission conductor and the fourth differential signal contact portion of the first transmission conductor, and a second ground contact portion of the first transmission conductor Second transmission conductor rear second a ground contact portion; a first ground protection contact portion disposed between the first differential signal contact portion of the first transmission conductor and the sixth differential signal contact portion of the second transmission conductor, and the first transmission conductor rear portion A second ground protection contact portion is disposed between the third differential signal contact portion and the eighth differential signal contact portion of the second transmission conductor.

The first transmission conductor group has a first transmission conductor, a first ground base portion, and a first transmission conductor on a side of the first ground base portion of the first transmission conductor. a differential signal base, a second differential signal base on the first transmission conductor side of the first differential signal base on the rear side of the first transmission conductor, and a second differential signal base on the rear side of the first transmission conductor a first transmission base of the first transmission conductor, a first transmission conductor on a side of the first power supply base of the first transmission conductor, a first detection base, and a first transmission conductor. a first signal base on the first transmission conductor on the side of the detection base, a first transmission conductor on the side of the first signal base on the rear side of the first transmission conductor, a second signal base, and a first The second transmission base of the first transmission conductor on the side of the second signal base of the rear side of the transmission conductor, the second transmission base on the side of the second detection base of the rear of the first transmission conductor, and the second power supply base of the rear row ,One The first transmission conductor on the second power supply base side of the first transmission conductor is arranged in a rear row of a third differential signal base, and a first transmission conductor is located on a side of the third differential signal base on the rear side of the first transmission conductor. a fourth differential signal base portion, and a first grounding conductor on a side of the fourth differential signal base portion of the rear row of the first transmission conductor, a second ground base portion; the second transmission conductor group front row contact portion extends rearwardly a second grounding conductor of the second transmission conductor, a second transmission conductor on the side of the first grounding base of the second transmission conductor, a fifth differential signal base, and a second transmission conductor a second differential signal base on the second transmission conductor side of the differential signal base, a second transmission conductor on the side of the first power supply base on the rear side of the first transmission conductor, a first power supply base, and a second a second transmission conductor on a side of the first power supply base of the transmission conductor, a first detection base, a second transmission conductor on a side of the first detection base of the second transmission conductor, and a first transmission a second signal base of the second transmission conductor on the side of the first signal base of the second transmission conductor, and a second transmission conductor located on the side of the second signal base of the second transmission conductor a first detection base, a second transmission conductor located on a side of the second power supply base of the rear of the first transmission conductor, a second power supply base, and a second power supply base on the rear side of the second transmission conductor a second differential signal base in a rear row of the second transmission conductor, a second transmission signal base on a side of the second differential signal base portion of the second transmission conductor on the rear side of the second transmission conductor, and a second differential signal base portion located behind the first transmission conductor The second transmission conductor on one side of the second ground base is arranged in the second ground base.

An extension path of the second transmission conductor group front row contact portion extending to the second transmission conductor group rear row contact portion and the first transmission conductor group front row contact portion extending to the first transmission conductor group rear row contact portion The extension path is set in the reverse direction.

A track is formed on each side of the rear side of the shielding shell, and a rear side of the insulating glue body has a plugging space for the connector to be inserted around the shield housing.

The first transmission conductor group front row contact portion or the second transmission conductor group front row contact portion is one of a USBC type specification, an FFC specification, or an FPC specification.

The left and right sides of the shielding shell respectively have a fixing buckle portion.

The upper and lower sides of the shielding shell respectively have a fixing buckle portion.

The left and right sides of the shielding shell respectively have a fixing buckle portion extending horizontally.

The first transmission conductor group rear row contact portion and the second transmission conductor group rear row contact portion are soldering legs.

When the insulating colloid group is a plurality of groups, the vertical stacking manner is continuously set.

The insulating colloid set is laterally disposed.

When the insulating colloid group is a plurality of groups, the left and right sides are continuously disposed sideways.

At least one waterproof component is disposed around the first plug connector.

The structure of an electrical connector mainly includes: a shielding shell; at least one insulating colloid group housed in the shielding shell, the insulating colloid group having a tongue portion; and a first transmission combined with the tongue portion a front row of contact portions of the conductor set extending from the other end with a first transmission conductor set rear row contact portion; a second transmission coupled to the tongue plate portion and located on the other side of the front row of the first transmission conductor group a front row of contact portions of the conductor set, the second end of the first transmission conductor group being disposed in front of the first transmission conductor group a first contact port at the front contact portion side of the second transfer conductor group; a rear contact portion of the first transfer conductor group and a second contact portion of the second transfer conductor group The second plug interface is an elliptical plug interface for inserting the connector in the forward and reverse directions; the second plug connector is rectangular.

The structure of an electrical connector mainly includes: a shielding shell; at least one insulating colloid group housed in the shielding shell, the insulating colloid group having a tongue portion; and a first transmission combined with the tongue portion a front row of contact portions of the conductor set, the first transmission conductor set rear row contact portion extending from the other end, wherein the first transmission conductor group rear row contact portion is a convex elastic structure, and the first transmission conductor The front row of contact portions is a plate-like structure; a second transmission conductor group front row contact portion coupled to the tongue plate portion and located on the other side of the front row of the first transmission conductor group, extending from the other end a second transmission conductor group rear row contact portion disposed horizontally in a single row with the first transmission conductor group rear row contact portion, wherein the second transmission conductor group rear row contact portion is a convex elastic structure, and the second The front contact portion of the transmission conductor group is a plate-like structure; a first insertion interface disposed at a front row contact portion of the first transmission conductor group and a front contact portion side of the second transmission conductor group; Transmission conductor set rear row contact portion and the second pass The second group of conductor sockets at the rear side of the contact portion.

After adopting the above structure, the structure of the electrical connector of the present invention has the advantages of being able to conduct both positive and negative insertion through the front row of the first transmission conductor group and the second row of conductor conductors of the other side. The movable cable arrangement of the detachable lower insulating colloid and the elastic urging portions on both sides allow the connection of the flat cable terminal to the rear contact portion of the first transmission conductor group and the rear contact portion of the second transmission conductor group to be active. It is easy to insert and remove the flat cable, and when the flat cable is removed, the flat cable terminal can be easily removed by the elastic abutting portion.

When the user wants to insert the connector, the front transmission contact portion of the first transmission conductor group and the front contact portion of the second transmission conductor group can be turned on regardless of the positive insertion or the reverse insertion, and the main socket is the first insertion. In addition, when it is required to be connected with the flat cable, the elastic pressing portion can be pressed to allow the detachable lower insulating rubber to be withdrawn, and then the flat cable and the first transmission conductor group are arranged in the rear row contact portion and the second transmission conductor group. The contact parts are connected and turned on, and it is not necessary to use the welding method to connect, which is very fast and convenient.

With the above technology, the back end of the conventional connector can be soldered to the flat cable, and the problem is very troublesome in maintenance or installation, thereby achieving the advantages of the present invention. Practical and progressive.

附图说明DRAWINGS

Figure 1 is a perspective view of a preferred embodiment of the present invention;

Figure 2 is a cross-sectional view taken along line A-A of Figure 1;

2A is an exploded view of a preferred embodiment of the present invention;

Figure 3 is a front view of a preferred embodiment of the present invention

4 is a plan view showing a front contact portion of the first transmission conductor group and a rear contact portion of the first transmission conductor group of the present invention;

Figure 5 is a plan view showing the rear contact portion of the second transmission conductor group and the rear contact portion of the second transmission conductor group of the present invention;

Figure 6 is a plan view showing the arrangement of the contact portions of the present invention;

Figure 7 is a schematic view of the pressing elastic abutting portion of the present invention;

Figure 8 is a schematic view of the mobile detachable lower insulating colloid of the present invention;

Figure 9 is a schematic view of a bridged flat cable of the present invention;

Figure 10 is a first embodiment of the fixing buckle portion of the present invention;

Figure 11 is a second embodiment of the fastening portion of the present invention;

Figure 12 is a schematic view showing the implementation of the left and right continuous side setting of the present invention;

Figure 13 is a schematic view showing the implementation of the waterproof assembly of the present invention.

具体实施方式detailed description

In order to further explain the technical solutions of the present invention, the present invention will be described in detail below by way of specific embodiments.

Referring to FIG. 1 to FIG. 6, it is clear from the figure that the structure of the electrical connector of the present invention includes:

a shield housing 1 having a rail 11 formed at each of the rear sides, and a fixing buckle portion 12 at each of the left and right sides of the shield housing 1;

At least one insulating colloid group 2 received in the shielding case 1 , the insulating colloid group 2 further includes a first insulating colloid 21 and a second insulating colloid 22 disposed on a side of the first insulating colloid 21, and the first The insulating colloid 21 and the second insulating colloid 22 are combined to form a tongue portion 20, and the insulating colloid group 2 forms an installation space 23 for an inner shielding shell 3, and further, the insulating colloid group 2 has a rear portion The shielding housing 1 collectively surrounds the insertion space 24 for the connector to be inserted into the connector;

a first transmission conductor group front row contact portion 4 coupled with the tongue plate portion 20 and conforming to a USBC type specification, an FFC specification or an FPC specification, and having a first transmission conductor group rear row contact portion 42 extending from the other end, and The first transmission conductor group rear row contact portion 42 is a convex elastic structure, and the first transmission conductor group front row contact portion 4 is a plate-like structure, wherein the first transmission conductor group front row contact portion 4 extends rearward a first transmission base 401 (GND (V-)), a first transmission conductor on the first transmission base 401 side of the first transmission conductor, and a first differential signal base 402. (SSRXp2), a second differential signal base 403 (SSRXn2) in the rear of the first transmission conductor on the side of the first differential signal base 402 of the first transmission conductor, and a second differential in the rear of the first transmission conductor The first transmission conductor on the side of the signal base 403 has a first power supply base 404 (VBUS), a first transmission conductor on the side of the first power supply base 404 on the rear side of the first transmission conductor, and a first detection base 405. (SUB1), one is located in the first transmission guide The first transmission base on the side of the first detection base 405 on the rear side of the first transmission base 406 (D-), and the first transmission conductor on the side of the first transmission base 406 on the rear side of the first transmission conductor a second signal base 407 (D+), a first transmission conductor on the side of the second signal base 407 on the rear side of the first transmission conductor, a second detection base 408 (CC1), and a first transmission conductor The second transmission base 409 (VBUS) on the side of the second detection base 408, the first transmission conductor on the side of the second power supply base 409 on the rear side of the first transmission conductor, and the third transmission conductor a differential signal base 410 (SSTXn1), a first transmission conductor on the side of the third differential signal base 410 on the rear side of the first transmission conductor, a fourth differential signal base 411 (SSTXp1), and a first transmission conductor. The first transmission conductor on the side of the fourth differential signal base 411 in the rear row is followed by the second ground base portion 412 (GND (V-));

Furthermore, the first transmission conductor group rear row contact portion 42 includes a first transmission conductor rear row first ground contact portion 420 (GND (V-)), and a first transmission conductor rear row first ground contact portion. a first differential signal contact portion 421 (SSRXp2) on the first transmission conductor of the 420 side, and a second differential signal on the first transmission conductor side of the first differential signal contact portion 421 on the rear side of the first transmission conductor Contact portion 422 (SSRXn2), a first transmission conductor on the side of the second differential signal contact portion 422 on the rear side of the first transmission conductor, a first power supply contact portion 423 (VBUS), and a first transmission conductor a first transmission contact conductor 424 on the side of the first power supply contact portion 423, a first detection contact portion 424 (SUB1), and a first transmission conductor on a side of the first detection contact portion 424 of the first transmission conductor a first signal contact portion 425 (D-) in the rear row, a first signal conductor 426 (D+) in the rear of the first transmission conductor on the side of the first signal contact portion 425 of the first transmission conductor, and a first signal contact portion 426 (D+) First transmission conductor rear second signal contact portion 426 side The first transmission conductor is arranged in a rear row of the second detecting contact portion 427 (CC1), a first transmission conductor on the side of the second detecting contact portion 427 of the rear side of the first transmission conductor, and a second power supply contact portion 428 (hereinafter) VBUS), a third differential signal contact portion 429 (SSTXn1) on the first transmission conductor side of the second power supply contact portion 428 on the rear side of the first transmission conductor, and a third differential on the rear side of the first transmission conductor a fourth differential signal contact portion 430 (SSTXp1) on the first transmission conductor side of the signal contact portion 429, and a first transmission conductor rear side on the side of the fourth differential signal contact portion 430 on the rear side of the first transmission conductor a second ground contact portion 431 (GND (V-));

a second transmission conductor group front row contact portion 5 coupled to the tongue plate portion 20 and located on the other side of the front transmission contact portion 4 of the first transmission conductor group and conforming to the USB C type specification, the FFC specification or the FPC specification, A second transmission conductor group rear row contact portion 52 disposed horizontally and in a single row with the first transmission conductor group rear row contact portion 42 is extended at one end, and the second transmission conductor group rear row contact portion 52 is a convex elastic structure. The second transmission conductor group front row contact portion 5 is a plate-like structure, wherein the second transmission conductor group front row contact portion 5 extends rearwardly with a second transmission conductor and the rear row of the first ground base portion 501 (GND (V- a second transmission signal base 502 (SSTXp2) on the second transmission conductor side of the second grounding conductor 501 on the rear side of the second transmission conductor, and a fifth differential signal base 502 on the rear side of the second transmission conductor. a second transmission signal base 503 (SSTXn2) on the one side of the second transmission conductor, a second transmission conductor on the side of the first power supply base 503 on the rear side of the first transmission conductor, and a first power supply base 504 (VBUS) One of the first in the rear of the second transmission conductor a second transmission conductor on the side of the power supply base 504, a first detection base 505 (CC2), a second transmission conductor on the side of the first detection base 505 on the rear side of the second transmission conductor, and a first signal base 506 (D+), a second transmission conductor 507 (D-) located at a side of the first signal base 506 of the second transmission conductor, and a second signal at the rear of the second transmission conductor a second transmission conductor on the side of the base 507, a first detection base 508 (SUB2), a second transmission conductor on the side of the second power supply base 508 on the rear of the first transmission conductor, and a second power supply base 509 ( VBUS), a second transmission conductor located at the second power supply base 509 side of the second transmission conductor, a seventh differential signal base 510 (SSRXn1), and a seventh differential signal base at the rear of the second transmission conductor. a second transmission conductor base 511 (SSRXp1) on the rear side of the second transmission conductor on the 510 side, and a second transmission conductor rear side second ground base portion 512 on the side of the second ground base portion 511 on the rear side of the first transmission conductor ( GND(V-));

Furthermore, the second transmission conductor group rear row contact portion 52 includes a second transmission conductor on the side of the first ground contact portion 420 of the first transmission conductor, and a first ground contact portion 520 (GND (V- a second transmission conductor on the side of the first ground contact portion 520 of the second transmission conductor, a fifth differential signal contact portion 521 (SSTXp2), and a fifth differential in the rear of the second transmission conductor a second transmission conductor rear sixth differential signal contact portion 522 (SSTXn2) between the signal contact portion 521 and the first differential signal contact portion 421 of the first transmission conductor, and a first row located at the rear of the first transmission conductor The first transmission contact portion 523 (VBUS) on the side of the power transmission contact portion 423, and the second transmission conductor on the side of the first power supply contact portion 523 on the rear side of the second transmission conductor Measuring contact portion 524 (CC2), a second transmission conductor located on the side of the first detecting contact portion 524 of the second transmission conductor, and a first signal contact portion 525 (D+), one of the second transmission conductors The second side of the first signal contact portion 525 of the rear row a second signal contact portion 526 (D-) in the rear of the transmission conductor, a second signal contact portion 526 in the rear row of the second transmission conductor, and a second detection contact portion 424 in the rear row of the first transmission conductor a first detecting contact portion 527 (SUB2) in the rear of the transmission conductor, a second transmission conductor on the side of the second power supply contact portion 428 on the rear side of the first transmission conductor, and a second power supply contact portion 528 (VBUS), a second differential signal contact portion 529 (SSRXn1) located at a rear side of the second power supply contact portion 528 of the second transmission conductor, and a seventh differential signal contact portion 529 at the rear of the second transmission conductor. a second differential signal contact portion 530 (SSRXp1) between the second transmission conductor and the second differential signal contact portion 430 of the first transmission conductor, and a second ground contact portion at the rear of the first transmission conductor a second grounding conductor on the side of the 431, a second ground contact portion 531 (GND (V-));

a first ground protection contact portion 60 disposed between the first differential signal contact portion 421 of the first transmission conductor and the sixth differential signal contact portion 522 of the second transmission conductor rear row;

a second grounding contact portion 61 disposed between the third differential signal contact portion 429 of the first transmission conductor and the eighth differential signal contact portion 530 of the second transmission conductor;

a shielding spacer 7 disposed between the first insulating colloid 21 and the second insulating colloid 22 and for isolating the first transmission conductor group front row contact portion 4 and the second transmission conductor group front row contact portion 5 ;

a first insertion interface 8 disposed at the first transmission conductor group front row contact portion 4 and the second transmission conductor group front row contact portion 5 side, and the first insertion interface 8 is for the connector to be inserted in the forward and reverse directions An elliptical plug interface;

a second insertion interface 81 disposed at a rear row contact portion 42 of the first transmission conductor group and a rear contact portion 52 side of the second transmission conductor group, and the second insertion interface 81 is rectangular;

The detachable lower insulating rubber 9 disposed on the lower side of the second insulating interface 81 is provided with at least one elastic urging portion 91 on each side, and at least one side of the elastic urging portion 91 has at least one side a convex portion 92 for holding;

Wherein the first transmission conductor group front row contact portion 4 is an I/O connector interface, and the first transmission conductor group rear row contact portion 42 is for a flat cable connection;

Wherein the second transmission conductor group front row contact portion 5 is an I/O connector interface, and the second transmission conductor group rear row contact portion 52 is for a flat cable connection;

The extending path of the second transmission conductor group front row contact portion 5 extending to the second transmission conductor group rear row contact portion 52 and the first transmission conductor group front row contact portion 4 extending to the first transmission conductor group The extending path of the rear row contact portion 42 is reversed;

In addition, the first transmission conductor group rear row contact portion 42 and the second transmission conductor group rear row contact portion 52 may be further soldered, or may be soldered to the flat cable.

Referring to FIG. 1 to FIG. 9, when the user wants to insert the connector of the present invention from the first plug connector 8, the first transmission conductor group front row contact portion 4 or the second transmission conductor group front row contact portion 5 can be utilized. Differential conduction, as the name implies, can be bridged and turned on corresponding to the first transmission conductor group front row contact portion 4 or the second transmission conductor group front row contact portion 5, whether it is forward insertion or reverse insertion. The limitation of positive insertion or reverse insertion; and more importantly, when the flat cable A is to be guided by the second insertion interface 81 with the first transmission conductor group rear row contact portion 42 or the second transmission conductor group rear row contact portion 52 When the time passes, the elastic urging portion 91 is first pressed, so that the detachable lower insulating rubber 9 can be moved along the rail 11 to exit the plugging space 24, and the terminal portion of the flat cable A can be lapped and detachably insulated. On the colloid 9, and then the detachable lower insulating colloid 9 is pushed inwardly, and the elastic urging portion 91 is again moved along the rail 11 to enter the mating space 24 to be in contact with the rear row of the first transmission conductor set. The portion 42 and the second transmission conductor group rear row contact portion 52 are turned on to achieve no The welding method can be electrically connected.

As shown in FIG. 10, each of the upper and lower sides of the shielding case 1a has a fixing button portion 12a. It can be seen that the fixing button portion 12a of the present invention can be located not only at the left and right sides of the shielding case 1a, but also On the upper and lower sides.

Referring to FIG. 11, the left and right sides of the shielding case 1b respectively have a fixing buckle portion 12b extending horizontally. It can be seen that the fixing button portion 12b of the present invention can be located not only on the upper and lower sides of the shielding case 1b or At the left and right sides, it can extend horizontally.

Referring to FIG. 12, the present invention can be separately disposed side by side to shield the casing 1c as a reference space, and can be changed according to the user's requirements. The illustration of the example is represented by the left and right continuous side setting, and can be set continuously or vertically in the vertical stacking manner.

Referring to FIG. 13, at least one waterproof component B is disposed around the first plug connector 8d, so that the present invention has its waterproof function, and the waterproof technology can be combined with the mobile phone or other required electronic devices.

Therefore, the key to the structure of the electrical connector of the present invention that can improve the conventional technology is:

1. The advantage of both the forward and reverse insertions can be achieved by the front row of contact portions 4 of the first transmission conductor set and the front row of contact portions 5 of the second transmission conductor group of the other side.

2. The flat cable A terminal and the first transmission conductor group rear row contact portion 42 and the second transmission conductor group rear row contact portion 52 are provided by the movable arrangement of the detachable lower insulating rubber 9 and the elastic abutting portions 91 on both sides. The connection method can be an active insertion without using a welding method, and when the flat cable A is removed, the flat cable A terminal can be easily removed by the elastic abutting portion 91, which is very convenient.

The above-mentioned embodiments and the drawings are not intended to limit the scope of the invention, and any suitable variations or modifications of the invention will be apparent to those skilled in the art.

In summary, the structure of the electrical connector of the present invention can achieve its efficacy and purpose when used. Therefore, the invention is an invention with excellent practicability, meets the application conditions of the invention patent, and submits an application according to law, hoping to review The invention will be granted as soon as possible to protect the inventor's hard work. If the examiner has any doubts, please do not hesitate to give instructions, the inventor will try his best to cooperate and feel polite.

Claims

What is claimed is: 1. A structure of an electrical connector, comprising:

a shielded housing;

At least one insulating colloid group housed in the shielding case, which has a tongue portion;

a front transmission contact portion of the first transmission conductor group combined with the tongue portion, and a rear contact portion of the first transmission conductor group extending from the other end;

a second transmission conductor group front row contact portion coupled to the tongue plate portion and located on the other side of the front row contact portion of the first transmission conductor group, and extending from the other end to be in contact with the rear row of the first transmission conductor group a second transmission conductor set rear row contact portion arranged horizontally in a single row;

a first insertion interface disposed at a front row contact portion of the first transmission conductor group and a front contact portion side of the second transmission conductor group;

a second insertion interface disposed at a rear row contact portion of the first transmission conductor group and a rear contact portion side of the second transmission conductor group;

The structure of the electrical connector of claim 1 , wherein the insulating colloid group is provided with a detachable lower insulating colloid adjacent to the lower side of the second plug connector, and the lower insulating colloid has at least two sides respectively An elastic abutting portion, one of the lower insulating colloids having at least one convex portion for holding.

The structure of the electrical connector of claim 1 , wherein the insulating colloid group comprises a first insulating colloid and a second insulating colloid disposed on a side of the first insulating colloid, and the first insulating layer The colloid and the second insulating colloid are combined to form the tongue portion, and the insulating colloid group forms an installation space for an inner shielding shell, and a first insulating colloid and the second insulating colloid are disposed between the colloid and the second insulating colloid. The shielding spacers of the first transmission conductor group front row contact portion and the second transmission conductor group front row contact portion are separated, and the insulating colloid group is provided with a detachable lower insulating colloid adjacent to the second insertion port.

The structure of the electrical connector of claim 1 wherein said first transmission conductor set rear row contact portion comprises a first transmission conductor rear row first ground contact portion, and one of said first transmissions a first differential signal contact portion on the first transmission conductor side of the first ground contact portion on the rear side of the conductor, and a first transmission conductor on the side of the first differential signal contact portion on the rear side of the first transmission conductor a differential signal contact portion, a first power transmission contact portion on a side of the second differential signal contact portion on the rear side of the first transmission conductor, a first power supply contact portion on the rear side of the first transmission conductor, and a first power supply contact portion on the rear side of the first transmission conductor a first detection contact portion on the side of the first transmission conductor, a first transmission conductor on the side of the first detection contact portion of the first transmission conductor, and a first signal contact portion on the rear side, one at the first a second signal contact portion of the first transmission conductor on the first signal contact portion of the rear side of the transmission conductor, and a second transmission conductor on the second signal contact portion of the second transmission contact portion of the first transmission conductor Contact, one located a first transmission conductor on the second detection contact side of the first transmission conductor, a second power supply contact portion on the rear side, and a first transmission conductor rear side on a side of the second power supply contact portion on the rear side of the first transmission conductor a third differential signal contact portion, a fourth differential signal contact portion on a side of the first transmission conductor on a side of the third differential signal contact portion of the first transmission conductor, and a fourth differential signal contact portion on the first transmission conductor a second ground contact portion of the first transmission conductor on the side of the differential signal contact portion; the second transmission portion of the second transmission conductor group includes a second transmission on a side of the first ground contact portion of the rear row of the first transmission conductor a first ground contact portion of the rear row of the conductor, a second differential signal contact portion of the second transmission conductor on the side of the first ground contact portion of the second transmission conductor, and a fifth differential signal contact portion at the rear of the second transmission conductor a sixth differential signal contact portion of the second transmission conductor between the differential signal contact portion and the first differential signal contact portion of the first transmission conductor, and a first power contact portion on the rear side of the first transmission conductor of a second power transmission contact portion of the second transmission conductor, a second transmission conductor on a side of the first power supply contact portion of the second transmission conductor, a first detection contact portion, and a second transmission conductor a first signal contact portion on the second transmission conductor side of the first detecting contact portion, a second transmission conductor on the side of the first signal contact portion on the rear side of the second transmission conductor, and a second signal contact portion on the rear side a second transmission conductor located between the second signal contact portion of the second transmission conductor and the first detection contact portion of the first transmission conductor, and a first detection contact portion, one of the first detecting contacts a second transmission conductor on the second power contact side of the rear side of the transmission conductor, a second power supply contact portion on the rear side, and a second transmission conductor on the second power supply contact side of the second transmission conductor a signal contact portion, a second differential signal contact portion of the second transmission conductor between the seventh differential signal contact portion of the second transmission conductor and the fourth differential signal contact portion of the rear of the first transmission conductor, and One at the first transmission a second grounding contact portion on a second transmission conductor side of the second ground contact portion of the rear row of the body; a first differential signal contact portion on the rear side of the first transmission conductor; and a sixth differential signal contact portion on the rear side of the second transmission conductor A first grounding protection contact portion is disposed between the third transmission signal contact portion of the first transmission conductor and the eighth differential signal contact portion of the second transmission conductor and the second differential signal contact portion of the second transmission conductor.

The structure of the electrical connector of claim 1 , wherein the front transmission contact portion of the first transmission conductor group extends rearwardly with a first transmission conductor and a first ground base portion, and one of the first transmission bases a first transmission signal base on the first grounding conductor side of the transmission conductor rear row, a first differential signal base portion on the rear side of the first transmission signal base, and a second transmission difference on the first transmission conductor base side of the first transmission conductor rear row a signal base, a first transmission conductor located on a side of the second differential signal base of the rear of the first transmission conductor, a first power supply base, and a first transmission on a side of the first power supply base of the first transmission conductor a first detecting base of the rear row of the conductor, a first transmitting base of the first transmitting conductor on a side of the first detecting base of the first transmitting conductor, and a first signal base at the rear of the first transmitting conductor a second signal base on the rear side of the first transmission conductor, a first transmission conductor on the side of the second signal base on the rear side of the first transmission conductor, and a second detection base in the rear, one behind the first transmission conductor Row number Detecting a second power supply base of the first transmission conductor on the side of the base, a first transmission conductor on the side of the second power supply base of the rear of the first transmission conductor, and a third differential signal base, one located at the first a fourth differential signal base of the first transmission conductor on the side of the third differential signal base of the transmission conductor, and a first transmission conductor on the side of the fourth differential signal base of the rear of the first transmission conductor. a second base of the second transmission conductor group a fifth differential signal base, a second transmission conductor on a side of the fifth differential signal base on the rear side of the second transmission conductor, a sixth differential signal base, and a first power supply base in the rear of the first transmission conductor. a second transmission conductor on the side of the second power transmission base, a second transmission conductor on a side of the second power transmission base of the second transmission conductor, a first detection base, and a second transmission guide The second transmission conductor on the first detecting base side of the rear side of the body is the first signal base portion, the second transmission conductor on the side of the first signal base portion of the second transmission conductor, and the second signal base portion. a second transmission conductor located on a side of the second signal base of the second transmission conductor, a first detection base, a second transmission conductor on a side of the second power supply base of the first transmission conductor, and a second transmission conductor a second power transmission base, a second transmission signal base on a second transmission conductor side of the second transmission base of the second transmission conductor, and a seventh differential signal base on a side of the seventh differential signal base of the second transmission conductor The eighth transmission signal base of the second transmission conductor and the second transmission conductor of the second transmission base on the side of the second ground base of the rear of the first transmission conductor are arranged in a second ground base.

The structure of an electrical connector according to claim 1, wherein said second transmission conductor group front row contact portion extends to an extension path of said second transmission conductor group rear row contact portion and said first transmission The extension of the front row of contact portions of the conductor set to the rear row of the first transmission conductor set is reversed.

The structure of the electrical connector of claim 1 , wherein a rail is formed on each of the two sides of the shielding shell, and a rear of the insulating colloid group is provided together with the shielding shell. The docking space in which the connector is actively inserted.

The structure of an electrical connector according to claim 1, wherein said first transmission conductor group front row contact portion or said second transmission conductor group front row contact portion is in conformity with USBC type specification, FFC specification or FPC. One of the specifications.

9. The structure of an electrical connector according to claim 1, wherein each of the left and right sides of the shield housing has a fastening portion.

10. The structure of an electrical connector according to claim 1, wherein each of the upper and lower sides of the shielding case has a fastening portion.

11. The structure of an electrical connector according to claim 1, wherein each of the left and right sides of the shielding housing has a fixing buckle portion extending horizontally.

12. The electrical connector of claim 1 wherein said first transmission conductor set rear row contact portion and said second transmission conductor set rear row contact portion are solder legs.

The structure of the electrical connector according to claim 1, wherein when the insulating colloid group is a plurality of groups, the vertical stacking manner is continuously provided.

14. The structure of an electrical connector according to claim 1, wherein said insulating colloid set is laterally disposed.

The structure of the electrical connector according to claim 1, wherein when the insulating colloid group is a plurality of groups, the left and right sides are continuously disposed sideways.

16. The structure of an electrical connector according to claim 1, wherein at least one waterproof component is disposed around the first plug connector.

17. A structure of an electrical connector, characterized by comprising:

a shielded housing;

At least one insulating colloid group housed in the shielding case, the insulating colloid group having a tongue portion;

The first plug interface is an elliptical plug connector for inserting the connector in the forward and reverse directions;

The second plug connector has a rectangular shape.

18. The structure of an electrical connector, characterized by comprising:

a shielded housing;

a first transmission conductor group front row contact portion coupled to the tongue portion, the first transmission conductor group rear row contact portion extending from the other end, wherein the first transmission conductor group rear row contact portion is a protrusion An elastic structure, and the front contact portion of the first transmission conductor group is a plate-like structure;

a second transmission conductor group front row contact portion coupled to the tongue plate portion and located on the other side of the front row contact portion of the first transmission conductor group, and extending from the other end to be in contact with the rear row of the first transmission conductor group a second transmission conductor group rear row contact portion disposed horizontally in a single row, wherein the second transmission conductor group rear row contact portion is a convex elastic structure, and the second transmission conductor group front row contact portion is a plate shape structure;

a second insertion interface disposed at a rear contact portion of the first transmission conductor group and a rear contact portion side of the second transmission conductor group.