CN110890649A

CN110890649A - Terminal structure of Displayport connector

Info

Publication number: CN110890649A
Application number: CN201811044942.4A
Authority: CN
Inventors: 林文贤; 黄健玮
Original assignee: Wieson Technologies Co ltd
Current assignee: Wieson Technologies Co ltd
Priority date: 2018-09-07
Filing date: 2018-09-07
Publication date: 2020-03-17

Abstract

The invention provides a terminal structure of Displayport connector, wherein a terminal seat connected with a seat body is formed by mutually buckling and laminating a first terminal set and a second terminal set, the first terminal set and the second terminal set respectively consist of a plurality of first terminals and a plurality of second terminals, welding parts of the first terminals and the second terminals extend towards a butt joint part obliquely to form a support arm bent twice by a preset angle, and a butt joint part vertical to the welding part is arranged at the tail end of the support arm, when the first terminals and the second terminals transmit high-frequency signals, the high-frequency signal reflection can be effectively reduced by properly changing the continuous design of the second bending preset angle of the first terminals and the second terminals and increasing the equivalent capacitance of the terminal space, and the characteristic impedance is matched by adjusting the shape change (such as length and width) of the terminals so as to greatly improve the integrity of the signals and ensure that the whole signal transmission is more stable and reliable, to enhance the quality of high-speed transmission signals.

Description

Terminal structure of Displayport connector

Technical Field

The invention relates to a terminal structure of a Displayport connector, in particular to a terminal structure of a Displayport connector, which can effectively reduce high-frequency signal reflection by properly changing the continuous design of secondary bending of a plurality of first terminals and second terminals at a preset angle and increasing equivalent capacitance between the terminals and adjusting the matching characteristic impedance of the shape change (such as length and width) of the terminals when the first terminals and the second terminals transmit high-frequency signals, thereby greatly improving the integrity of the signals, enabling the whole signal transmission to be more stable and reliable and strengthening the quality of high-speed transmission signals.

Background

The electronic connector is widely used in various communication devices, and as a transmission and connection element of electronic signals, the connector sockets of common standard specifications include RJ-11 (telephone line socket), RJ-45 (network line socket), USB (universal serial bus), IEEE1394 (serial bus), RF (radio frequency) transmission port, Pin-header and Displayport.

Among the above connectors, a display port (Displayport) connector is widely used for image signal transmission, and most of the Displayport connectors are horizontally arranged on a circuit board to be connected and fixed. However, the current electronic products are designed in the direction of light, thin, short and small, and the Displayport connector cannot occupy more than half of the space of the circuit board in the limited space of the circuit board, so that the trend of changing the horizontal Displayport connector into the vertical type is a trend, so that the space of the circuit board can be simplified, and more electronic element layouts can be made on the circuit board.

The terminal seat of the prior Displayport connector socket is fixed by a seat body foot position groove, and the tongue piece and the welding foot are respectively aligned and then assembled, so the assembly difficulty is higher. Secondly, the grounding path from the shell to the front iron shell to the grounding pin is completed by three members, and if the electrical connection between the three members is not good, the grounding operation of the noise cannot be completed. Furthermore, the lower part of the platform of the seat body is made of solid plastic, which consumes more plastic and causes the problem of higher manufacturing cost of the Displayport connector socket.

Furthermore, the terminal set of the conventional Displayport connector has a poor structural design, which cannot achieve a better matching characteristic impedance, and cannot reduce the reflection of high-frequency signals, so that the integrity of signals is greatly compromised, and the signal transmission stability is poor, which needs to be improved by those skilled in the art.

Disclosure of Invention

Therefore, in view of the above-mentioned problems and disadvantages, the present inventors have collected relevant data through various evaluations and considerations, and have made extensive trial and error through years of research and development experience in the industry, and have invented a patent for the terminal structure of the Displayport connector.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a terminal structure of Displayport connector, characterized by includes:

the base body is provided with a fixed frame, the fixed frame is provided with an accommodating space, and one side of the fixed frame is provided with a groove;

a terminal base having a first terminal set and a second terminal set, the first terminal set and the second terminal set are arranged in a staggered manner, one end of each of a plurality of first terminals and a plurality of second terminals of the first terminal set and the second terminal set respectively has a first butt joint part and a second butt joint part, the first butt joint part and the second butt joint part are arranged in the accommodating space of the fixing frame in a penetrating manner, the other end of each of the first terminal set and the second terminal set is bent to form a first welding part and a second welding part, a first support arm is connected between the first butt joint part and the first welding part in a bending manner, a second support arm is connected between the second butt joint part and the second welding part in a bending manner, the first support arm of the first terminal set and the first butt joint part form a first bending angle with an angle range of 90-180 degrees, and the first support arm and the first welding part form a second bending angle with an angle range of 90-180 degrees, the length range of the first supporting arm is 0.00 mm-10.54 mm, the width range of a first terminal wide part and the width range of a first terminal narrow part are both 0.20 mm-0.70 mm, and the distance between adjacent first terminals is 0.95 mm-1.05 mm; the second support arm of the second terminal group and the second butt joint part form a third bending angle with an angle range of 90-180 degrees, the second support arm and the second welding part form a fourth bending angle with an angle range of 90-180 degrees, the length of the second support arm ranges from 0.00mm to 9.99mm, the width range of a second terminal wide part and the width range of a second terminal narrow part are both 0.20mm

0.70mm, and the distance between the adjacent second terminals is 0.95 mm-1.05 mm; the distance between the first butt joint part and the second butt joint part is 0.65 mm-0.75 mm, the distance between the first welding part and the second welding part is 0.70 mm-1.30 mm, and the distance between the first support arm and the second support arm is 0.43 mm-1.93 mm;

the shielding shell is arranged on the groove of the base body, and an inserting space is formed in the shielding shell and used for the first butt joint part and the second butt joint part of the terminal base to be penetrated and arranged; and

and the shell is buckled with the seat body so that the terminal seat and the shielding shell are accommodated between the shell and the seat body.

The terminal structure of Displayport connector, wherein: the seat body further comprises a clamping hole and a groove part, the clamping hole is used for clamping and positioning a first baffle, the first baffle is provided with two grounding pins, two stop edges, an inclined part, a convex plate and a clamping hook, the two grounding pins are clamped on a frame formed around the clamping hole of the seat body and are inserted into a grounding area of a circuit board to form signal grounding, the two stop edges are also clamped on two sides of the frame, and the clamping hook of the first baffle is clamped in the groove part of the seat body to form a structure that the first baffle is assembled on the seat body.

The terminal structure of Displayport connector, wherein: the seat body further comprises two buckling holes, two buckling grooves and a first terminal groove, the two buckling holes and the two buckling grooves are used for being clamped and positioned by a second baffle plate, the second baffle plate is provided with two first buckling hooks, two second buckling hooks and a plurality of second terminal grooves, the two first buckling hooks are buckled in the two buckling holes, the two second buckling hooks are buckled in the two buckling grooves, the plurality of second terminal grooves are used for fixing the first welding part of the first terminal group, and the first terminal groove of the seat body is used for fixing the second welding part of the second terminal group, so that the second baffle plate is assembled on the seat body structure.

The terminal structure of Displayport connector, wherein: the first terminal group is also provided with a first positioning plate and a tongue plate, so that the first butt joint part is exposed out of the upper surface of the tongue plate, the second terminal group is also provided with a second positioning plate, the upper surface of the second positioning plate is provided with two positioning grooves, the two positioning grooves are used for two positioning columns below the first positioning plate to extend into and buckle, and the second butt joint part is abutted against the lower surface of the tongue plate, so that an assembly structure of the first terminal group and the second terminal group is formed.

The terminal structure of Displayport connector, wherein: a first partition plate is arranged above the first welding part of the first terminal set, a second partition plate is arranged above the second welding part of the second terminal set, the first partition plate and the second partition plate are respectively provided with a plurality of first terminals for fixing the first terminal set and a plurality of second terminals for fixing the second terminal set, the space between the first terminal set and the second terminal set is maintained, and the first partition plate and the second partition plate are arranged in a staggered mode.

The terminal structure of Displayport connector, wherein: two sides of the shielding shell are respectively provided with a convex block, and the two convex blocks slide into the two corresponding guide grooves on the two sides of the groove of the seat body and are positioned, so as to form an assembly structure of the shielding shell and the seat body.

The terminal structure of Displayport connector, wherein: an L-shaped support is arranged between the bottom of the groove of the seat body and the frame and is used for increasing the contact area between the seat body and a circuit board and the holding stability.

The terminal structure of Displayport connector, wherein: the bottom of the pillar is also provided with a positioning sheet which is used for inserting the circuit board so as to ensure that the seat body and the circuit board form a fixed structure.

The terminal structure of Displayport connector, wherein: the top surface of the shell is also provided with a positioning block which slides into a positioning hole fixed on the seat body, the two sides of the shell are also provided with two sliding points which slide into sliding grooves on the two sides of the seat body, the bottom side of the two sides of the shell is also provided with a through hole, the two through holes are used for clamping and fixing a convex point on the two sides of the seat body to form a fixing structure of the shell and the seat body, and the bottom end of the two sides of the shell is also provided with two positioning pins for inserting a circuit board so as to form a fixing structure of the shell and the circuit board.

The terminal structure of Displayport connector, wherein: the first bending angle is 135 degrees; the second bending angle is 135 degrees; the length of the first support arm is 3.54 mm; the width of the first terminal wide portion is 0.60 mm; the width of the first terminal narrow part is 0.41mm, and the distance between the adjacent first terminals is 1.00 mm; the third bending angle is 135 degrees; the fourth bending angle is 135 degrees; the length of the second support arm is 2.99 mm; the width of the second terminal wide portion is 0.60 mm; the width of the second terminal narrow part is 0.41 mm; the distance between the adjacent second terminals is 1.00 mm; the distance between the first butt joint part and the second butt joint part is 0.70 mm; the distance between the first welding part and the second welding part is 1.00 mm; the distance between the first support arm and the second support arm is 0.93 mm.

The main advantage of the present invention is that the terminal seat connected to the seat body is formed by mutually fastening and laminating the first terminal set and the second terminal set, the first terminal set and the second terminal set are each composed of a plurality of first terminals and a plurality of second terminals, the welding parts of the first terminals and the second terminals extend obliquely towards the butt joint part to form a support arm bent twice by a preset angle, the tail end of the support arm is provided with a butt joint part vertical to the welding part, when the first terminals and the second terminals transmit high-frequency signals, the high frequency signal reflection can be effectively reduced by properly changing the continuous design of the first and second terminals bent twice by a predetermined angle and increasing the equivalent capacitance of the terminal pitch, and adjusting the matching characteristic impedance of the terminal shape change (such as length and width), therefore, the integrity of the signal is greatly improved, the whole signal transmission is more stable and reliable, and the quality of the high-speed transmission signal is enhanced.

The secondary advantage of the present invention is to provide a terminal structure of Displayport connector, in which the first terminal set and the second terminal set of the terminal block are fixed by the fixing frame of the base, so as to simplify the assembly procedure and increase the stability of the terminal block; the first baffle plate arranged below the seat body is provided with two grounding pins for direct grounding, and the grounding effect is enhanced by reducing grounding components and paths; the lower part of the seat body is provided with an L-shaped pillar to replace the existing solid plastic for supporting the seat body, and a first baffle plate made of metal is clamped into the frame of the seat body to strengthen the integral strength of the seat body structure and shield the electromagnetic interference signals emitted by the terminal seat.

The present invention has another advantage in that the base further includes a locking hole and a slot, the locking hole is further used for a first baffle to perform a locking positioning, the first baffle has two grounding pins, two stopping edges, an inclined portion, a protruding plate and a hook, the two grounding pins are clamped on a frame formed around the locking hole of the base and are inserted into a grounding area of a circuit board for signal grounding, the two stopping edges are also locked on two sides of the frame, and the hook of the first baffle is locked on the slot of the base to form a structure that the first baffle is assembled on the base.

The seat further has two fastening holes, two fastening grooves and a first terminal groove, wherein the two fastening holes and the two fastening grooves are used for a second baffle to be fastened and positioned, the second baffle has two first fastening hooks, two second fastening hooks and a plurality of second terminal grooves, the two first fastening hooks are fastened in the two fastening holes, the two second fastening hooks are fastened in the two fastening grooves, the second terminal grooves are used for fixing the first welding parts of the first terminal group, and the first terminal groove of the seat is used for fixing the second welding parts of the second terminal group, so as to form a structure that the second baffle is assembled in the seat.

Drawings

Fig. 1 is a perspective appearance structural view of the Displayport connector of the present invention.

Fig. 2 is a three-dimensional exploded structure view of the Displayport connector of the present invention.

Fig. 3 is another exploded perspective view of the Displayport connector of the present invention.

Fig. 4 is a side sectional view of the Displayport connector of the present invention.

Fig. 5 is a side view of the first terminal and the second terminal of the present invention.

Fig. 6 is a front view structural diagram of the first terminal and the second terminal of the present invention.

Description of reference numerals: 1-a seat body; 11-a fixed frame; 110-a containing space; 111-locating holes; 12-a groove; 121-a guide groove; 13-a clamping hole; 14-a trough portion; 15-a frame; 151-first terminal groove; 152-bump; 16-a buttonhole; 17-catching grooves; 18-a pillar; 181-positioning sheet; 19-a chute; 2-terminal base; 21-a first terminal set; 211 — a first terminal; 2111-first docking portion; 2112 — first weld; 2113-first arm; 212-a first positioning plate; 2121-a positioning column; 213-tongue plate; 214-a first spacer plate; 22-a second terminal set; 221-a second terminal; 2211-a second docking portion; 2212-second weld; 2213-second support arm; 222-a second positioning plate; 2221-positioning groove; 223-a second spacer; 3-a shielding shell; 30-a plug space; 31-a bump; 32-a fixing sheet; 320-a lock hole; 4-a housing; 41-top surface; 411-locating blocks; 42-flank; 421-sliding point; 422-through hole; 43-positioning feet; 5-a first baffle; 51-ground pin; 52-stop edge; 53-an inclined portion; 54-a convex plate; 55-hook; 6-a second baffle; 61-a first hook; 62-a second buckle hook; 63-a second terminal slot; θ 1-a first bend angle; θ 2-a second bend angle; θ 3-third bend angle; θ 4-fourth bend angle; d1 — spacing of adjacent first terminals; d2-pitch of adjacent second terminals; l1 — first arm length; l2 — second arm length; s1-the distance between the first butt joint part and the second butt joint part; s2-spacing between first and second welds; s3-the distance between the first support arm and the second support arm; w1-the width of the first terminal; w2 — width of the first terminal narrow portion.

Detailed Description

To achieve the above objects and advantages, and in accordance with the purpose of the invention, as embodied and broadly described herein, the following description is provided to explain the present invention in terms of its structure and function.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, which are respectively a three-dimensional appearance structure diagram, a three-dimensional exploded structure diagram, another three-dimensional exploded structure diagram, a side view cross-sectional structure diagram of the Displayport connector, a side view structure diagram of the first terminal and the second terminal, and a front view structure diagram of the first terminal and the second terminal, it can be clearly seen from the drawings that the Displayport connector of the present invention includes a base 1, a terminal base 2, a shielding housing 3, a housing 4, a first baffle 5, and a second baffle 6, and each component is explained in more detail as follows:

the base 1 has a fixed frame 11, the fixed frame 11 has an accommodating space 110 therein, and a groove 12 is formed on one side of the fixed frame 11. An L-shaped support column 18 is further disposed between the bottom of the groove 12 of the base 1 and the rectangular frame 15, and the support column 18 is used to increase the contact area and the holding stability between the base 1 and a circuit board (not shown). The bottom of the pillar 18 is further provided with a positioning plate 181, and the positioning plate 181 is used for inserting the circuit board, so that the base 1 and the circuit board form a fixed structure.

The terminal base 2 has a first terminal set 21 and a second terminal set 22, the first terminal set 21 and the second terminal set 22 are arranged in a staggered manner, one end of each of a plurality of first terminals 211 and a plurality of second terminals 221 of the first terminal set 21 and the second terminal set 22 has a first butt-joint portion 2111 and a second butt-joint portion 2211, the first butt-joint portion 2111 and the second butt-joint portion 2211 are inserted into the accommodating space 110 of the fixing frame 11, the other end of each of the first terminal set 21 and the second terminal set 22 is bent to form a first welding portion 2112 and a second welding portion 2212, a first arm 2113 is bent and connected between the first butt-joint portion 2111 and the first welding portion 2112, a second arm 2213 is bent and connected between the second butt-joint portion 2211 and the second welding portion 2212, the first arm 2113 and the first butt-joint portion 2211 of the first terminal set 21 form a first bending angle θ 1 in the range of 90 ° -180 ° - θ 1, preferably 135 deg. is implemented. The first arm 2113 and the first welding portion 2112 form a second bending angle θ 2 of 90 to 180 °, preferably 135 °. The length L1 of the first arm 2113 ranges from 0.00mm to 10.54mm, preferably 3.54 mm. The width W1 range of the first terminal wide portion and the width W2 range W2 of the first terminal narrow portion are both 0.20mm to 0.70mm, and the width W1 of the first terminal wide portion is preferably implemented as

0.60mm, the width W2 of the first terminal narrow portion is preferably implemented as 0.41 mm. And the distance D1 between adjacent first terminals is 0.95 mm-1.05 mm, preferably 1.00 mm. The second arm 2213 of the second terminal set 22 and the second butt-joint portion 2211 form a third bending angle θ 3, preferably 135 °, in a range of 90 ° to 180 °, and the second arm 2213 and the second butt-joint portion 2212 form a fourth bending angle θ 4, preferably 135 °, in a range of 90 ° to 180 °. The second arm length L2 ranges from 0.00mm to 9.99mm, preferably 2.99 mm. The width of the second terminal wide portion and the width of the second terminal narrow portion are 0.20mm to 0.70mm, the width W1 of the second terminal wide portion is preferably 0.60mm, and the width W2 of the second terminal narrow portion is preferably 0.41mm, and the second terminal wide portion and the second terminal narrow portion have the same dimensions as the first terminal wide portion W1 and the second terminal narrow portion W2, and thus are not repeated. And the distance D2 between adjacent second terminals is 0.95 mm-1.05 mm, preferably 1.00 mm. And the distance S1 between the first and second butting parts is 0.65 mm-0.75 mm, preferably 0.70 mm. The distance S2 between the first welding part and the second welding part is 0.70 mm-1.30 mm, preferably 1.00 mm. The distance D4 between the first arm and the second arm is 0.43 mm-1.93 mm, preferably 0.93 mm.

The first terminal set 21 further has a first positioning plate 212 and a tongue plate 213, such that the first docking portion 2111 is exposed out of the upper surface of the tongue plate 213, the second terminal set 22 further has a second positioning plate 222, the upper surface of the second positioning plate 222 has two positioning slots 2221, the two positioning slots 2221 are used for the two positioning posts 2121 under the first positioning plate 212 to extend into and buckle, and the second docking portion 2211 is supported against the lower surface of the tongue plate 213, such that the assembly structure of the first terminal set 21 and the second terminal set 22 is formed.

The shielding housing 3 is disposed on the groove 12 of the base 1, the shielding housing 3 has a plug space 30 therein, and the plug space 30 is used for the first docking portion 2111 and the second docking portion 2211 of the terminal base 2 to pass through. Two sides of the shielding shell 3 are respectively provided with a bump 31, and the two bumps 31 slide into the two corresponding guide slots 121 on two sides of the groove 12 of the base 1 and are positioned, so as to form an assembly structure of the shielding shell 3 and the base 1. The shielding housing 3 is further provided with a fixing plate 32 outside the socket, and the fixing plate 32 is further provided with a locking hole 320.

The housing 4 and the base 1 are fastened to each other, so that the terminal block 2 and the shielding shell 3 are accommodated between the housing 4 and the base 1. A top surface 41 of the housing 4 is further provided with a positioning block 411, the positioning block 411 slides into a positioning hole 111 fixed on the base body 1, the two side surfaces 42 of the housing 4 are further provided with two sliding points 421 to slide into the sliding grooves 19 on the two sides of the base body 1, the bottom side of the two side surfaces 42 of the housing 4 is further provided with a through hole 422, the two through holes 422 are used for clamping and fixing a bump 152 on the two sides of the base body 1 to form a fixing structure of the housing 4 and the base body 1, and the bottom end of the two side surfaces 42 of the housing 4 is further provided with two positioning pins 43 for inserting a circuit board (not shown) so that the housing 4 and the.

The base 1 further includes a locking hole 13 and a slot portion 14, the locking hole 13 is further used for the first baffle 5 to perform a locking positioning, the first baffle 5 has two grounding pins 51, two stop edges 52, an inclined portion 53, a protruding plate 54 and a locking hook 55, the two grounding pins 51 are clamped on a frame 15 formed around the locking hole 13 of the base 1 and are inserted into a grounding area (not shown) of a circuit board for signal grounding, the two stop edges 52 are also clamped on two sides of the frame 15, and the locking hook 55 of the first baffle 5 is clamped on the slot portion 14 of the base 1, so as to form a structure that the first baffle 5 is assembled on the base 1.

The base 1 further includes two fastening holes 16, two fastening grooves 17 and a first terminal groove 151, the two fastening holes 16 and the two fastening grooves 17 are further used for a second baffle 6 to be fastened and positioned, the second baffle 6 has two first fastening hooks 61, two second fastening hooks 62 and a plurality of second terminal grooves 63, the two first fastening hooks 61 are fastened in the two fastening holes 16, the two second fastening hooks 62 are fastened in the two fastening grooves 17, the second terminal grooves 63 are used for fixing the first welding portion 2112 of the first terminal set 21, and the first terminal groove 151 of the base 1 is used for fixing the second welding portion 2212 of the second terminal set 22, so as to form a structure that the second baffle 6 is assembled in the base 1.

To assemble the Displayport connector, the first terminal set 21 and the second terminal set 22 of the terminal base 2 are first assembled by engaging the positioning posts 2121 of the first positioning plate 212 with the positioning slots 2221 of the second positioning plate 222. The first baffle 5 is clamped in the clamping hole 13 of the seat body 1, and the grounding pin 51 of the first baffle 5 extends out of the other side of the frame 15 (i.e. near the pillar 18). The terminal block 2 is assembled on the first docking portion 2111 and the second docking portion 2211 on the upper side and the lower side of the tongue plate 213 and is inserted into the accommodating space 110 of the fixing frame 11 of the base 1, the shielding shell 3 is horizontally slid into the groove 12 of the base 1 for assembly and positioning, the tongue plate 213 of the terminal block 2 is placed in the insertion space 30 of the shielding shell 3, the first hook 61 and the second hook 62 of the second baffle 6 are fastened in the fastening hole 16 and the fastening groove 17 of the base 1, and the housing 4 and the base 1 are fastened with each other, so that the terminal block 2 and the shielding shell 3 are accommodated between the housing 4 and the base 1. Then, the positioning block 411 of the housing 4 is slid into the positioning hole 111 fixed on the base body 1, and the two sliding points 421 on the two sides 42 of the housing 4 are slid into the sliding slots 19 on the two sides of the base body 1, and the bottom side of the two sides 42 of the housing 4 is further provided with a through hole 422, and then the two through holes 422 are used for clamping and fixing a bump 152 on the two sides of the base body 1, so as to complete the integral assembly of the terminal structure of the Displayport connector.

It can be understood from the disclosure of fig. 1 to fig. 6 that the terminal seat of the present invention mainly comprises a first terminal set and a second terminal set, the first terminal set and the second terminal set are formed by mutually buckling and laminating, the first terminal set and the second terminal set are respectively formed by a plurality of first terminals and a plurality of second terminals, the welding parts of the first terminals and the second terminals extend obliquely towards the butt joint part to form a support arm bent twice by a predetermined angle, and a vertical butt joint part is formed at the tail end of the support arm, when the first terminals and the second terminals transmit high frequency signals, the high frequency signal reflection can be effectively reduced by properly changing the continuity design of the first terminals and the second terminals bent twice by the predetermined angle and increasing the equivalent capacitance of the terminal spacing, and by adjusting the characteristic impedance matched with the shape change (such as length and width) of the terminals, thereby greatly improving the integrity of the signals and making the overall signal transmission more stable and reliable, to enhance the quality of high-speed transmission signals. The invention has certain improvement on the Displayport connector structure and has the competitiveness in the commercial market.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a terminal structure of Displayport connector, characterized by includes:

a terminal base having a first terminal set and a second terminal set, the first terminal set and the second terminal set are arranged in a staggered manner, one end of each of a plurality of first terminals and a plurality of second terminals of the first terminal set and the second terminal set respectively has a first butt joint part and a second butt joint part, the first butt joint part and the second butt joint part are arranged in the accommodating space of the fixing frame in a penetrating manner, the other end of each of the first terminal set and the second terminal set is bent to form a first welding part and a second welding part, a first support arm is connected between the first butt joint part and the first welding part in a bending manner, a second support arm is connected between the second butt joint part and the second welding part in a bending manner, the first support arm of the first terminal set and the first butt joint part form a first bending angle with an angle range of 90-180 degrees, and the first support arm and the first welding part form a second bending angle with an angle range of 90-180 degrees, the length range of the first supporting arm is 0.00 mm-10.54 mm, the width range of a first terminal wide part and the width range of a first terminal narrow part are both 0.20 mm-0.70 mm, and the distance between adjacent first terminals is 0.95 mm-1.05 mm; the second support arm of the second terminal group and the second butt joint part form a third bending angle with an angle range of 90-180 degrees, the second support arm and the second welding part form a fourth bending angle with an angle range of 90-180 degrees, the length range of the second support arm is 0.00-9.99 mm, the width range of a second terminal wide part and the width range of a second terminal narrow part are both 0.20-0.70 mm, and the distance between adjacent second terminals is 0.95-1.05 mm; the distance between the first butt joint part and the second butt joint part is 0.65 mm-0.75 mm, the distance between the first welding part and the second welding part is 0.70 mm-1.30 mm, and the distance between the first support arm and the second support arm is 0.43 mm-1.93 mm;

2. The terminal structure of Displayport connector according to claim 1, characterized in that: the seat body further comprises a clamping hole and a groove part, the clamping hole is used for clamping and positioning a first baffle, the first baffle is provided with two grounding pins, two stop edges, an inclined part, a convex plate and a clamping hook, the two grounding pins are clamped on a frame formed around the clamping hole of the seat body and are inserted into a grounding area of a circuit board to form signal grounding, the two stop edges are also clamped on two sides of the frame, and the clamping hook of the first baffle is clamped in the groove part of the seat body to form a structure that the first baffle is assembled on the seat body.

3. The terminal structure of Displayport connector according to claim 1, characterized in that: the seat body further comprises two buckling holes, two buckling grooves and a first terminal groove, the two buckling holes and the two buckling grooves are used for being clamped and positioned by a second baffle plate, the second baffle plate is provided with two first buckling hooks, two second buckling hooks and a plurality of second terminal grooves, the two first buckling hooks are buckled in the two buckling holes, the two second buckling hooks are buckled in the two buckling grooves, the plurality of second terminal grooves are used for fixing the first welding part of the first terminal group, and the first terminal groove of the seat body is used for fixing the second welding part of the second terminal group, so that the second baffle plate is assembled on the seat body structure.

4. The terminal structure of Displayport connector according to claim 1, characterized in that: the first terminal group is also provided with a first positioning plate and a tongue plate, so that the first butt joint part is exposed out of the upper surface of the tongue plate, the second terminal group is also provided with a second positioning plate, the upper surface of the second positioning plate is provided with two positioning grooves, the two positioning grooves are used for two positioning columns below the first positioning plate to extend into and buckle, and the second butt joint part is abutted against the lower surface of the tongue plate, so that an assembly structure of the first terminal group and the second terminal group is formed.

5. The terminal structure of Displayport connector according to claim 1, characterized in that: a first partition plate is arranged above the first welding part of the first terminal set, a second partition plate is arranged above the second welding part of the second terminal set, the first partition plate and the second partition plate are respectively provided with a plurality of first terminals for fixing the first terminal set and a plurality of second terminals for fixing the second terminal set, the space between the first terminal set and the second terminal set is maintained, and the first partition plate and the second partition plate are arranged in a staggered mode.

6. The terminal structure of Displayport connector according to claim 1, characterized in that: two sides of the shielding shell are respectively provided with a convex block, and the two convex blocks slide into the two corresponding guide grooves on the two sides of the groove of the seat body and are positioned, so as to form an assembly structure of the shielding shell and the seat body.

7. The terminal structure of Displayport connector according to claim 1, characterized in that: an L-shaped support is arranged between the bottom of the groove of the seat body and the frame and is used for increasing the contact area between the seat body and a circuit board and the holding stability.

8. The terminal structure of Displayport connector according to claim 7, characterized in that: the bottom of the pillar is also provided with a positioning sheet which is used for inserting the circuit board so as to ensure that the seat body and the circuit board form a fixed structure.

9. The terminal structure of Displayport connector according to claim 1, characterized in that: the top surface of the shell is also provided with a positioning block which slides into a positioning hole fixed on the seat body, the two sides of the shell are also provided with two sliding points which slide into sliding grooves on the two sides of the seat body, the bottom side of the two sides of the shell is also provided with a through hole, the two through holes are used for clamping and fixing a convex point on the two sides of the seat body to form a fixing structure of the shell and the seat body, and the bottom end of the two sides of the shell is also provided with two positioning pins for inserting a circuit board so as to form a fixing structure of the shell and the circuit board.

10. The terminal structure of Displayport connector according to claim 1, characterized in that: the first bending angle is 135 degrees; the second bending angle is 135 degrees; the length of the first support arm is 3.54 mm; the width of the first terminal wide portion is 0.60 mm; the width of the first terminal narrow part is 0.41mm, and the distance between the adjacent first terminals is 1.00 mm; the third bending angle is 135 degrees; the fourth bending angle is 135 degrees; the length of the second support arm is 2.99 mm; the width of the second terminal wide portion is 0.60 mm; the width of the second terminal narrow part is 0.41 mm; the distance between the adjacent second terminals is 1.00 mm; the distance between the first butt joint part and the second butt joint part is 0.70 mm; the distance between the first welding part and the second welding part is 1.00 mm; the distance between the first support arm and the second support arm is 0.93 mm.