TWM660658U - Electrical connector colloid structure - Google Patents

Abstract

The invention relates to a colloid structure of an electrical connector, which mainly comprises a transmission conductor group, a transmission conductor group contact portion, a transmission conductor group base portion, a transmission conductor group bending guide portion, a transmission conductor group welding portion, a front transmission conductor group contact portion, a rear transmission conductor group contact portion, and an insulating colloid, wherein the insulating colloid comprises a tongue portion and a base portion, and the tongue portion comprises a first tongue portion, a rear contact through hole, a tongue positioning hole, and a rear contact through hole. , tongue hollowing part, second tongue part, and front row contact groove. When the signal of the transmission conductor set passes through the transmission conductor set contact part, the transmission conductor set base, and the transmission conductor set bending guide part, the time when it finally reaches the transmission conductor set welding part is mostly not consistent. In this case, the tongue hollowing part is used to expose the transmission conductor set base, which effectively accelerates the medium of signal transmission, so that the signal arrival time can be consistent, making the high-frequency signal quality better.

Description

Colloidal structure of electrical connector

The present invention relates to a colloid structure of an electrical connector that can improve the quality of high-frequency signal transmission.

According to the traditional connector structure used for multimedia signal transmission, such as the Republic of China Patent Publication No. M509461 "USB Connector Structure", it mainly includes an outer shielding shell, an inner shielding shell, an insulating gel and a transmission conductor set on the insulating gel. Its main feature is that the outer shielding shell completely covers the inner shielding shell, so that the transmission conductor set contained in the inner shielding shell can be effectively suppressed. In addition, the outer shielding shell includes a base with an opening, and the side of the base away from the opening extends to form a shielding portion, which has a first inclined portion in an inclined state and a second inclined portion inclined in a direction different from the first inclined portion. In addition to the above advantages, the first inclined portion and the second inclined portion can effectively save installation space.

However, the above USB connector structure does have the following problems and deficiencies when in use and needs to be improved:

Because it is a side-standing connector, the lengths of the terminals of the transmission conductor set are necessarily different. When the lengths are different, the speeds of the transmission signals will be different. The so-called different speeds mean that the time it takes for the signal to reach the circuit board after passing through the terminal is inconsistent, which will lead to unstable quality of high-frequency signal transmission.

Therefore, how to solve the above-mentioned problems and deficiencies in usage is the direction that the applicant of this new model and the relevant manufacturers engaged in this industry are eager to study and improve.

The main purpose of this new topic is to provide a method that allows the signal of the side-standing electrical connector to reach the welding part of the transmission conductor group at the same time, thereby improving the quality of high-frequency signals.

The main structure of the novel device capable of achieving the above-mentioned purpose includes a transmission conductor group, a transmission conductor group contact portion, a transmission conductor group base portion, a transmission conductor group bending guide portion, a transmission conductor group welding portion, a front row transmission conductor group contact portion, a rear row transmission conductor group contact portion, and an insulating colloid, and the insulating colloid includes a tongue portion and a base portion, and the tongue portion includes a first tongue The transmission conductor group contact portion is formed by sequentially extending from one side to form a transmission conductor group base, a transmission conductor group bending guide portion, and a transmission conductor group welding portion, and the transmission conductor group contact portion includes the front row transmission conductor group contact portion and the rear row transmission conductor group contact portion, and the insulating colloid The transmission conductor set is covered, and the tongue portion covers the contact portion and the base of the transmission conductor set, and the base portion covers the bending guide portion of the transmission conductor set; the first tongue portion covers the base of the transmission conductor set, and the rear contact perforation is for exposing the contact portion of the rear transmission conductor set, and the tongue positioning hole is located corresponding to the base of the transmission conductor set and is used to prevent the transmission conductor set from moving during the manufacturing process; the second tongue portion is formed by extending the first tongue portion, and the second tongue portion includes a plurality of front contact grooves for exposing the contact portion of the front transmission conductor set. It is worth mentioning that the first tongue portion includes at least one tongue hollow portion, and the tongue hollow portion is located corresponding to the base of the transmission conductor set, so that the base of the transmission conductor set is exposed to increase the transmission speed.

When the signal of the transmission conductor set passes through the transmission conductor set contact part, the transmission conductor set base part, and the transmission conductor set bending guide part, the time when it finally reaches the transmission conductor set welding part is mostly not consistent. However, the tongue hollow part increases the speed of the signal that originally passes through the transmission conductor set base part, so that the signal reaches the transmission conductor set welding part at the same time, thereby improving the quality of high-frequency signal transmission.

By using the above technology, the problem that the conventional USB connector has different lengths of the terminals of the transmission conductor set due to the side-standing connector, and when the lengths are different, the transmission signal speeds will be different. The so-called different speeds mean that the time for the signal to reach the circuit substrate after passing through the terminal is inconsistent, which will lead to the unstable quality of high-frequency signal transmission, can be overcome, and the practical progress of the new type as mentioned above can be achieved.

1: Transmission conductor set

11a: Transmission conductor group contact part

111a: Front row transmission conductor group contact part

112a: Rear transmission conductor group contact part

11b: Base of the transmission conductor group

11c: Transmission conductor assembly bending guide part

11d: Transmission conductor assembly welding part

20: First differential signal transmission conductor base

20a: First differential signal transmission conductor guide part

21: Second differential signal transmission conductor base

21a: Second differential signal transmission conductor guide section

22: Power transmission conductor base

22a: Power transmission conductor guide part

23: First ground transmission conductor base

23a: First ground transmission conductor guide

24: Base of the first signal transmission conductor

24a: First signal transmission conductor guide unit

25: Second signal transmission conductor base

25a: Second signal transmission conductor guide unit

26: Second ground transmission conductor base

27: Third ground transmission conductor base

27a: Third ground transmission conductor guide part

28: The third differential signal transmission conductor base

28a: The third differential signal transmission conductor guide part

29: Fourth differential signal transmission conductor base

29a: Fourth differential signal transmission conductor guide section

3: Insulation colloid

31: Tongue part

311: First tongue part

3111: Rear contact perforation

3112: Tongue positioning hole

3113: Tongue hollowing part

312: Second tongue part

3121:Front contact slot

32: Base part

321: Base positioning hole

322: Base hollowing part

323: Strengthen the hollow part

3231: Horizontal hollowing part

3232: Vertical hollowing part

4: Shielding shell

41: Shielding the hollow part of the outer shell

The first figure is a three-dimensional diagram of the first preferred embodiment of the new model.

The second figure is a plan view of the first preferred embodiment of the new model.

The third figure is a plan view of the transmission conductor assembly of the first preferred embodiment of the new type.

Figure 4 is a plan view of the second preferred embodiment of the new model.

Figure 5 is a plan view of the third preferred embodiment of the new model.

Figure 6 is a three-dimensional diagram of the fourth preferred embodiment of the present invention.

Figure 7 is a plan view of the fifth preferred embodiment of the new model.

Figure 8 is a plan view of the sixth preferred embodiment of the present invention.

Please refer to the first to third figures, which are the three-dimensional diagrams and the plane diagrams of the transmission conductor assembly of the first preferred embodiment of the new model. It can be clearly seen from the figures that the new model includes:

A transmission conductor set 1 includes:

A transmission conductor set contact portion 11a, the transmission conductor set contact portion 11a includes a front transmission conductor set contact portion 111a and a rear transmission conductor set contact portion 112a at the rear side of the front transmission conductor set contact portion 111a;

A transmission conductor group base 11b is formed by extending from one end of the transmission conductor group contact portion 11a, and the transmission conductor group base 11b is sequentially arranged with a first differential signal transmission conductor base 20, a second differential signal transmission conductor base 21 disposed on one side of the first differential signal transmission conductor base 20, a power transmission conductor base 22 disposed on one side of the second differential signal transmission conductor base 21, a first ground transmission conductor base 23 disposed on one side of the power transmission conductor base 22, and a first signal transmission conductor base 24 disposed on one side of the first ground transmission conductor base 23. The first signal transmission conductor base 24 includes a second signal transmission conductor base 25 disposed on one side of the first signal transmission conductor base 24, a second ground transmission conductor base 26 disposed on one side of the second signal transmission conductor base 25 and connected to the first ground transmission conductor base 23, a third ground transmission conductor base 27 disposed on one side of the second ground transmission conductor base 26 and connected to the second ground transmission conductor base 26, a third differential signal transmission conductor base 28 disposed on one side of the third ground transmission conductor base 27, and a third differential signal transmission conductor base 28 disposed on one side of the third differential signal transmission conductor base 28. The four differential signal transmission conductor bases 29, and the following transmission conductor group bending guide portion 11c are arranged in sequence: a first differential signal transmission conductor guide portion 20a, a second differential signal transmission conductor guide portion 21a provided on one side of the first differential signal transmission conductor guide portion 20a, a power transmission conductor guide portion 22a provided on one side of the second differential signal transmission conductor guide portion 21a, a first ground transmission conductor guide portion 23a provided on one side of the power transmission conductor guide portion 22a, a first signal transmission conductor guide portion 23a provided on one side of the first ground transmission conductor guide portion 23a, and a second differential signal transmission conductor guide portion 21a provided on one side of the second differential signal transmission conductor guide portion 21a. body guide 24a, a second signal transmission conductor guide 25a provided on one side of the first signal transmission conductor guide 24a, a third ground transmission conductor guide 27a provided on one side of the second signal transmission conductor guide 25a and connected to the second ground transmission conductor base 26 and the third ground transmission conductor base 27, a third differential signal transmission conductor guide 28a provided on one side of the third ground transmission conductor guide 27a, and a fourth differential signal transmission conductor guide 29a provided on one side of the third differential signal transmission conductor guide 28a;

A transmission conductor group bending guide portion 11c extending from the transmission conductor group base portion 11b away from the transmission conductor group contact portion 11a;

A transmission conductor assembly welding portion 11d formed by extending the transmission conductor assembly bending guide portion 11c away from the transmission conductor assembly base portion 11b;

An insulating colloid 3 covering the transmission conductor group 1 includes:

A tongue portion 31 covering the transmission conductor group contact portion 11a and the transmission conductor group base portion 11b, the tongue portion 31 includes a first tongue portion 311 covering the transmission conductor group base portion 11b, and a second tongue portion 312 extending from the first tongue portion 311 away from the side of the base portion 32 described below and for arranging the front row transmission conductor group contact portion 111a, the first tongue portion 311 includes a plurality of rear row transmission conductor group contact portions 112a exposed The contact through hole 3111, several tongue positioning holes 3112 corresponding to the base 11b of the transmission conductor set and used to prevent the transmission conductor set 1 from moving during the manufacturing process, and at least one position corresponding to the base 11b of the transmission conductor set, so that the base 11b of the transmission conductor set is exposed to increase the transmission speed. The second tongue portion 312 includes several front row contact grooves 3121 for exposing the front row transmission conductor set contact portion 111a; and

A base portion 32 connected to the tongue portion 31 and covering the transmission conductor assembly bending guide portion 11c.

In this embodiment, the tongue hollow portion 3113 is located above the second differential signal transmission conductor base 21.

In terms of the manufacturing process, when the transmission conductor set 1 is embedded in the insulating gel 3, the transmission conductor set 1 can be positioned and fixed by the ejector pin through the tongue positioning hole 3112, so that the transmission conductor set 1 will not move during the molding process, and the front transmission conductor set contact portion 111a is located in the front contact groove 3121, the rear transmission conductor set contact portion 112a is located in the rear contact through hole 3111, the transmission conductor set welding portion 11d is exposed on one side of the insulating gel 3, and a side-standing electrical connector is formed by the transmission conductor set bending guide portion 11c.

When the electrical connector of the present invention and the counterpart connector are inserted into each other, the front transmission conductor group contact portion 111a and the rear transmission conductor group contact portion 112a of the transmission conductor group contact portion 11a receive the signal, and then sequentially pass through the transmission conductor group base portion 11b and the transmission conductor group bending guide portion 11c, and are transmitted to the transmission conductor group welding portion 11d. More specifically, the signal sequentially passes through the first differential signal transmission conductor base portion 20 and the first differential signal transmission conductor guide portion 20a; sequentially passes through the second differential signal transmission conductor base portion 21, and the second differential signal transmission conductor guide 21a; sequentially passing through the third differential signal transmission conductor base 28 and the third differential signal transmission conductor guide 28a; sequentially passing through the fourth differential signal transmission conductor base 29 and the fourth differential signal transmission conductor guide 29a; sequentially passing through the first signal transmission conductor base 24 and the first signal transmission conductor guide 24a; sequentially passing through the second signal transmission conductor base 25 and the second signal transmission conductor guide 25a; and the aforementioned signal will eventually reach the transmission conductor assembly welding portion 11d.

It is worth mentioning that in this case, a tongue hollow portion 3113 is formed on the base 11b of the transmission conductor group, and is formed above the second differential signal transmission conductor base 21 as an example. Since the common length of the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide portion 21a is greater than the common length of the first differential signal transmission conductor base 20 and the first differential signal transmission conductor guide portion 20a, the length of the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide portion 21a is much greater than the length of the first differential signal transmission conductor base 20 and the first differential signal transmission conductor guide portion 20a on the signal transmission path. In addition, due to the dielectric constant and dissipation coefficient of the insulating colloid 3, the length of the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide portion 21a is much greater than the length of the first differential signal transmission conductor base 20 and the first differential signal transmission conductor guide portion 20a. Factor) will directly affect the speed and quality of the transmission signal, so that the signal passing through the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide portion 21a will reach the transmission conductor assembly welding portion 11d slower than the signal passing through the first differential signal transmission conductor base 20 and the first differential signal transmission conductor guide portion 20a, thereby generating signal imbalance and reducing the quality of high-frequency signal transmission. In this case, the second differential signal transmission conductor base 21 is exposed to the outside by the tongue hollow portion 3113. This method is based on the dielectric constant of air. Constant)εr=1.00053, which is just higher than the dielectric constant of vacuum, so that the signal passing through the second differential signal transmission conductor base 21 will not be affected by the medium of the insulating colloid 3, effectively improving the signal delay and increasing the transmission speed. In this way, the time for the signal passing through the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide 21a to reach the transmission conductor assembly welding part 11d can be the same as the signal passing through the first differential signal transmission conductor base 20 and the first differential signal transmission conductor guide 20a, thereby achieving signal balance and effectively increasing the stability and quality of the high-frequency transmission signal.

Please refer to the fourth figure, which is a plan view of the second preferred embodiment of the present invention. It can be clearly seen from the figure that the present embodiment is different from the aforementioned embodiment in that the base portion 32 of the present embodiment has a plurality of base positioning holes 321 and a plurality of base hollow portions 322 located at the sides of the base positioning holes 321. In other words, each base positioning hole 321 is mainly used for the push pin in the process to press against the transmission conductor assembly, and the tongue positioning hole 3112 can further increase the stability of its positioning, and the base hollow portion 322 can be used as a push pin in the process. In addition, the influence of the transmission medium on the bending guide of the transmission conductor group can be reduced, thereby increasing the transmission speed, and the time to reach the welding part 11d of the transmission conductor group remains the same. The base hollow part 322 of this embodiment is set above the third differential signal transmission conductor guide part 28a and the fourth differential signal transmission conductor guide part 29a, and effectively accelerates the signal passing through the third differential signal transmission conductor base, the third differential signal transmission conductor guide part 28a, the fourth differential signal transmission conductor base, and the fourth differential signal transmission conductor guide part 29a.

Please refer to the fifth figure, which is a plan view of the third preferred embodiment of the present invention. It can be clearly seen from the figure that the present embodiment is different from the aforementioned embodiments in that the base portion 32 of the present embodiment has a reinforced hollow portion 323, which includes a transverse hollow portion 3231 and a longitudinal hollow portion 3232 connected to the transverse hollow portion 3231, and the transverse hollow portion 3231 is located at a position corresponding to the side of the transmission conductor group bending guide portion 11c adjacent to the transmission conductor group welding portion 11d, and the longitudinal hollow portion 3232 is located at a position corresponding to the second differential signal transmission conductor guide portion 21a; thereby, through the reinforced hollow portion The design of the transverse hollow portion 3231 of 323 allows the signal speed of the transmission conductor group bending guide portion 11c to be further increased, speeding up the transmission speed, and through the design of the longitudinal hollow portion 3232, the signal passing through the second differential signal transmission conductor guide portion 21a can be accelerated again, so that the signal passing through the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide portion 21a can reach the transmission conductor group welding portion 11d at the same time as the signal passing through the first differential signal transmission conductor base and the first differential signal transmission conductor guide portion 20a, further enhancing the stability and quality of the high-frequency output signal.

Please refer to the sixth figure, which is a three-dimensional diagram of the fourth preferred embodiment of the present invention. It can be clearly seen from the figure that the difference between this embodiment and the above-mentioned embodiments is that the insulating colloid 3 of this embodiment is coated with a shielding shell 4, and the shielding shell 4 can better shield noise to avoid affecting other electronic components.

Please refer to the seventh figure, which is a plan view of the fifth preferred embodiment of the present invention. It can be clearly seen from the figure that the present embodiment is different from the aforementioned embodiments in that the shielding shell 4 of the present embodiment has a shielding shell hollow portion 41 corresponding to the position of the reinforced hollow portion 323. Through the design of the shielding shell hollow portion 41, the signal passing through the horizontal hollow portion 3231 and the longitudinal hollow portion 3232 is more unobstructed, the transmission speed can be faster and more balanced, and the high-frequency transmission quality is better.

Please refer to FIG. 8, which is a plan exploded view of the sixth preferred embodiment of the present invention. It can be clearly seen from the figure that the present embodiment is different from the aforementioned embodiments in that, in addition to including all the technical features of the first preferred embodiment, the present embodiment also includes a plurality of base positioning holes 321, a plurality of base hollow portions 322, and a reinforced hollow portion 323 on the base portion 32, wherein the base hollow portion 322 is located at positions corresponding to the transmission guide The reinforcing hollow portion 323 includes a transverse hollow portion 3231 and a longitudinal hollow portion 3232 communicating with the transverse hollow portion 3231. The transverse hollow portion 3231 corresponds to a side of the transmission conductor assembly bending guide portion 11c adjacent to the transmission conductor assembly welding portion 11d, and the longitudinal hollow portion 3232 corresponds to a side of the second differential signal transmission conductor guide portion 21a. The insulating colloid 3 is covered with a shielding shell 4, and the shielding shell 4 has a shielding shell hollow portion 41 corresponding to the position of the reinforced hollow portion 323; thereby, this embodiment is a combination of all the technical features of the aforementioned embodiments, that is, this embodiment exposes the second differential signal transmission conductor base 21 to the outside through the tongue hollow portion 3113, so that the signal passing through the second differential signal transmission conductor base 21 will not be affected by the insulating colloid 3 The medium influence can increase the transmission speed, so that the time for the signal passing through the second differential signal transmission conductor base 21 and the second differential signal transmission conductor guide portion 21a to reach the transmission conductor group welding portion 11d can be the same as the time for the signal passing through the first differential signal transmission conductor base 20 and the first differential signal transmission conductor guide portion 20a, thereby achieving signal balance and effectively increasing the stability and quality of the high-frequency transmission signal. Furthermore, through the design of the base hollow portion 322, the signal passing through the fourth differential signal transmission conductor base 29 and the fourth differential signal transmission conductor guide portion 29a can reach the transmission conductor group welding portion 11d at the same time as the signal passing through the third differential signal transmission conductor base 28 and the third differential signal transmission conductor guide portion 28a. In addition, by strengthening the design of the transverse hollow portion 3231 of the hollow portion 323, the speed of the transmission conductor assembly bending the guide portion 11c can be further increased, thereby speeding up the transmission speed. By strengthening the design of the longitudinal hollow portion 3232 of the hollow portion 323, the stability and quality of the high-frequency output signal can be further enhanced. The shielding of the outer shell hollow portion 41 can make the signal passing through the transverse hollow portion 3231 and the longitudinal hollow portion 3232 more unobstructed, so that the transmission speed can be faster and more balanced, and the high-frequency transmission quality is better.

However, although various embodiments of the novel invention have been shown and described herein, such embodiments are provided by way of example only, and any operating theories or benefits provided herein are intended only as an aid to the description of the novel invention; such theories and explanations do not restrict or limit the scope of the patent application regarding the organizational remodeling achieved by practicing the novel invention. Those skilled in the art can now conceive of many variations, changes or substitutions without departing from the novel invention. It should be understood that various alternatives to the embodiments of the novel invention described herein may be adopted in practicing the novel invention. The scope of the novel invention, the methods and structures within the scope of the novel invention are intended to include equivalent forms.

In summary, the gel structure of the electrical connector of this new type can truly achieve its effect and purpose when used. Therefore, this new type is truly a new type with excellent practicality. In order to meet the application requirements of a new patent, an application is filed in accordance with the law. I hope that the review committee will approve this new type as soon as possible to protect the applicant's hard work. If the review committee of the Jun Bureau has any doubts, please feel free to write to instruct. The applicant will definitely do his best to cooperate and feel that it is public and convenient.

3: Insulation colloid

31: Tongue part

3111: Rear contact perforation

3113: Tongue hollowing part

3121:Front contact slot

32: Base part

Claims (10)

A colloid structure of an electrical connector, mainly comprising: A transmission conductor set includes a transmission conductor set contact portion, a transmission conductor set base extending from one end of the transmission conductor set contact portion, a transmission conductor set bending guide extending from the transmission conductor set base away from the transmission conductor set contact portion, and a transmission conductor set welding portion extending from the transmission conductor set bending guide away from the transmission conductor set base, and the transmission conductor set contact portion includes a front row transmission conductor set contact portion and a rear row transmission conductor set contact portion at the rear side of the front row transmission conductor set contact portion; An insulating colloid covering the transmission conductor group includes a tongue portion covering the contact portion of the transmission conductor group and the base portion of the transmission conductor group, and a base portion connected to the tongue portion and covering the bending guide portion of the transmission conductor group. The tongue portion includes: A first tongue portion covering the base of the transmission conductor set, the first tongue portion including a plurality of rear contact through-holes for exposing the contact portion of the rear transmission conductor set, a plurality of tongue positioning holes corresponding to the base of the transmission conductor set and used to prevent the transmission conductor set from moving during the manufacturing process, and at least one tongue hollow portion corresponding to the base of the transmission conductor set so that the base of the transmission conductor set is exposed to increase the transmission speed; and A second tongue portion is formed by extending from the first tongue portion away from the side of the base portion and is provided for arranging the front row transmission conductor group contact portion. The second tongue portion includes a plurality of front row contact grooves for exposing the front row transmission conductor group contact portion. The colloid structure of the electrical connector as described in claim 1, wherein the transmission conductor group base is arranged in sequence: a first differential signal transmission conductor base, a second differential signal transmission conductor base disposed on one side of the first differential signal transmission conductor base, a power transmission conductor base disposed on one side of the second differential signal transmission conductor base, a first ground transmission conductor base disposed on one side of the power transmission conductor base, a first signal transmission conductor base disposed on one side of the first ground transmission conductor base, a second signal transmission conductor base disposed on one side of the first signal transmission conductor base, a second ground transmission conductor base disposed on one side of the second signal transmission conductor base and connected to the first ground transmission conductor base, a third ground transmission conductor base disposed on one side of the second ground transmission conductor base and connected to the second ground transmission conductor base, a third differential signal transmission conductor base disposed on one side of the third ground transmission conductor base, and a The fourth differential signal transmission conductor base is arranged on the side of the transmission conductor group bending guide portion, and the transmission conductor group bending guide portion is arranged in sequence with a first differential signal transmission conductor guide portion, a second differential signal transmission conductor guide portion arranged on one side of the first differential signal transmission conductor guide portion, a power transmission conductor guide portion arranged on one side of the second differential signal transmission conductor guide portion, a first ground transmission conductor guide portion arranged on one side of the power transmission conductor guide portion, and a first signal transmission conductor guide, a second signal transmission conductor guide disposed on one side of the first signal transmission conductor guide, a third ground transmission conductor guide disposed on one side of the second signal transmission conductor guide and connected to the second ground transmission conductor base and the third ground transmission conductor base, a third differential signal transmission conductor guide disposed on one side of the third ground transmission conductor guide, and a fourth differential signal transmission conductor guide disposed on one side of the third differential signal transmission conductor guide. The colloid structure of the electrical connector as described in claim 2, wherein the tongue hollow portion is located above the base of the second differential signal transmission conductor. The colloid structure of the electrical connector as described in claim 1, wherein the base portion has a plurality of base positioning holes and a plurality of base hollow portions located on the sides of the base positioning holes. As described in claim 4, the colloid structure of the electrical connector, wherein each hollow portion of the base corresponds to the bending guide portion of the transmission conductor assembly. The colloid structure of the electrical connector as described in claim 2, wherein the base portion has a reinforced hollow portion, including a transverse hollow portion and a longitudinal hollow portion communicating with the transverse hollow portion. The colloid structure of the electrical connector as described in claim 6, wherein the transverse hollow portion is located at a position corresponding to the bending guide portion of the transmission conductor group adjacent to one side of the welding portion of the transmission conductor group. The colloid structure of the electrical connector as described in claim 7, wherein the longitudinal hollow portion is located corresponding to the guide portion of the second differential signal transmission conductor. A colloid structure of an electrical connector as described in claim 6, wherein the insulating colloid is coated with a shielding shell. The colloid structure of the electrical connector as described in claim 9, wherein the shielding shell has a shielding shell hollow portion whose position corresponds to the reinforced hollow portion.

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