CN212751200U - Integrated terminal - Google Patents

Abstract

The utility model relates to an integral type terminal, it includes welding section and the electrically conductive core cartridge section that connects according to the preface. The conductive core inserting section comprises a first folding wall, a second folding wall, a third folding wall, a fourth folding wall, a fifth folding wall, a first inserting elastic sheet, a first inserting guide arm, a second inserting elastic sheet and a second inserting guide arm. The first folding wall, the second folding wall, the third folding wall and the fourth folding wall are sequentially connected along the clockwise direction to form a square cavity in a closed mode. The fifth turnover wall is formed by continuously extending the fourth turnover wall and bending the fourth turnover wall for 90 degrees along the clockwise direction. The first inserting elastic sheet and the second inserting elastic sheet are arranged oppositely and are arranged in the square cavity. The first inserting elastic sheet and the second inserting elastic sheet are respectively formed by continuously extending the second turnover wall and the fourth turnover wall forwards and bending in the opposite direction. The first insertion guide arm and the second insertion guide arm are oppositely arranged and are respectively formed by continuously extending and bending the third turnover wall and the fifth turnover wall.

Description

Integrated terminal

Technical Field

The utility model belongs to the technical field of the electric connector manufacturing technology and specifically relates to an integral type terminal.

Background

With the development of science and technology and the improvement of living standard, people have a vigorous demand for electronic products. The electric connector is widely applied to industries such as electric power systems, communication networks, financial manufacturing, elevators, industrial automation, medical equipment, office equipment, household appliances, military manufacturing, vehicle-mounted and the like, and is mainly used for connecting signal transmission between electronic products or among components in the electronic products.

The electric connector comprises a main plastic part and a plurality of terminals, wherein a plurality of jacks are formed on the main plastic part along the length direction of the electric connector for inserting and fixing the terminals so as to realize the signal transmission function. In the prior art, as shown in fig. 1, the terminal is a split structure, which is formed by sleeving a terminal body and a metal shell. The metal shell is formed by stamping and bending a sheet metal body and is additionally provided with an accommodating cavity. The terminal body is built in and fixed in the accommodating cavity. In the actual manufacturing process of the terminal, the terminal body and the metal shell are respectively and independently punched and bent for forming, and the terminal body and the metal shell are inserted into a whole subsequently, so that on one hand, the terminal forming needs a longer process route, the production efficiency is reduced, and the manufacturing cost is increased; on the other hand, in order to ensure the anti-dropping performance, a limiting structure is inevitably added between the terminal body and the metal shell, so that the complexity of the design structures of the terminal body and the metal shell is increased to a certain degree, the manufacturing cost of the terminal is further increased, and the difficulty of the mutual insertion operation of the terminal body and the metal shell is increased to a certain degree. Thus, a skilled person is urgently needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the above-mentioned problems and drawbacks, the present invention provides a terminal connector that is capable of collecting relevant data, evaluating and considering various parts, and continuously performing experiments and modifications by a plurality of years of research and development experience technicians engaged in the industry, thereby finally resulting in the appearance of an integrated terminal.

In order to solve the technical problem, the utility model relates to an integral type terminal, it is by a slice form metal blanking, bend and form. The integrated terminal comprises a welding section and a conductive core inserting section which are connected in sequence, wherein the conductive core inserting section comprises a first folding wall, a second folding wall, a third folding wall, a fourth folding wall and a fifth folding wall. The first folding wall, the second folding wall, the third folding wall and the fourth folding wall are sequentially connected along the clockwise direction to form a square cavity in a closed mode. The fifth turnover wall is formed by continuously extending the fourth turnover wall and bending the fourth turnover wall for 90 degrees along the clockwise direction, and the fifth turnover wall is attached to the outer side wall of the first turnover wall. In addition, the conductive core inserting section further comprises a first inserting elastic sheet, a first inserting guide arm, a second inserting elastic sheet and a second inserting guide arm. The first inserting elastic sheet and the second inserting elastic sheet are arranged oppositely and are arranged in the square cavity. The first inserting elastic sheet and the second inserting elastic sheet are respectively formed by continuously extending the second turnover wall and the fourth turnover wall forwards and bending in the opposite direction. The first insertion guide arm and the second insertion guide arm are oppositely arranged and are respectively formed by continuously extending and bending the third turnover wall and the fifth turnover wall. The first insertion elastic piece is formed by sequentially connecting a first insertion guide section and a first top contact conduction section. The second plug-in elastic sheet is formed by connecting a second plug-in guide section opposite to the first plug-in guide section and a second top contact conduction section opposite to the first top contact guide section in sequence.

As the utility model discloses technical scheme's further improvement, electrically conductive core cartridge section still touches including first top and switches on interior concave part, second top and touches and switch on interior concave part. The first top contact conducting inner concave part and the second top contact conducting inner concave part are respectively formed by respectively pressing a first turnover wall and a third turnover wall and are oppositely arranged.

As a further improvement of the technical scheme of the utility model, the conductive core cartridge section is still including the locking shell fragment. The locking elastic sheet is punched by the fifth turnover wall and is formed by bending along the direction far away from the square-shaped cavity.

As a further improvement of the technical proposal of the utility model, a strip-shaped groove is punched and formed on the locking elastic sheet along the length direction.

As a further improvement of the technical scheme of the utility model, the conductive core cartridge section still includes a limiting part. The limiting part is arranged right behind the locking elastic sheet and consists of a first limiting notch and a second limiting notch which are arranged oppositely. The first limiting notch and the second limiting notch are respectively formed by oppositely punching the second turnover wall and the fourth turnover wall.

As a further improvement of the technical proposal of the utility model, the plug-in section of the conductive core is also provided with a fool-proof piece. The fool-proof piece is formed by continuously extending the fifth turnover wall and bending the fifth turnover wall along the direction away from the square-shaped cavity by 90 degrees.

As the utility model discloses technical scheme's further improvement, the transversal U type of personally submitting of welding section, and arrange along the direction of keeping away from conductive core cartridge portion, it includes first line ball district, the second line ball district that connects according to the preface. Along the axial direction, a plurality of reinforcement grooves which are parallel to each other are uniformly distributed on the first line pressing area.

Compared with the split type terminal with the traditional design structure, the terminal has the advantages that in the technical scheme disclosed by the utility model, the terminal is of an integrated structure and is formed by punching and bending a sheet metal, so that the forming route of the terminal is effectively simplified, the production efficiency is improved, and the manufacturing cost is reduced; on the other hand, the design structure of the terminal is simpler, the manufacturing implementation is facilitated, and on the premise that the pre-transmission power is consistent, the forming volume of the terminal can be reduced to a certain extent, and the implementation of a subsequent assembly process is facilitated; on the other hand, the terminal has good stress stability, and the phenomenon of loosening in the traditional design structure is effectively avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an exploded view of a prior art terminal.

Fig. 2 is a perspective view of the integrated terminal of the present invention.

Fig. 3 is a side view of fig. 2.

Fig. 4 is a sectional view a-a of fig. 3.

Fig. 5 is an enlarged view of part I of fig. 2.

Fig. 6 is a top view (rotated 90 °) of fig. 2.

Fig. 7 is a sectional view B-B of fig. 6.

Fig. 8 is a cross-sectional view C-C of fig. 6.

Fig. 9 is a perspective view (invisible state) of the integrated terminal according to another view angle of the present invention.

1-welding section; 11-a first crimping zone; 111-force increasing grooves; 12-a second crimping zone; 2-conductive core insertion section; 21-a first folded wall; 211-first top contact via inner recess; 22-a second folded wall; 221-a first limit notch; 23-a third folded wall; 231-second top contact lead-through inner recess; 24-a fourth turnover wall; 241-a second limit notch; 25-a fifth turnover wall; 251-a locking spring; 2511-strip grooves; 252-foolproof tablets; 26-a first plug-in shrapnel; 261-a first insertion guide section; 262-a first top-contact conducting segment; 27-a first insertion guide arm; 28-a second plug-in shrapnel; 281-a second plug-in guide section; 282-second top contact conducting section; 29-second insertion guide arm.

Detailed Description

In the description of the present invention, it is to be understood that the terms "front", "back", "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the following, the contents of the present invention are further described in detail with reference to the specific embodiments, and fig. 2 shows a schematic perspective view of an integrated terminal of the present invention, which is mainly formed by connecting a welding section 1 and a conductive core insertion section 2 according to a sequence. In addition, in view of reducing the manufacturing cost, the one-piece terminal is preferably directly punched and bent from a sheet metal. As shown in fig. 3 and 4, the conductive core inserting section 2 includes a first folding wall 21, a second folding wall 22, a third folding wall 23, a fourth folding wall 24, a fifth folding wall 25, a first inserting elastic sheet 26, a first inserting guide arm 27, a second inserting elastic sheet 28, and a second inserting guide arm 29. The first folding wall 21, the second folding wall 22, the third folding wall 23 and the fourth folding wall 24 are sequentially connected along the clockwise direction to form a square cavity. The fifth folded wall 25 extends upward from the fourth folded wall 24, is formed by bending at 90 ° in a clockwise direction (from left to right), and is parallel to and abuts against the outer side wall of the first folded wall 21 (as shown in fig. 3 and 4). The first and second elastic insertion pieces 26 and 28 are arranged oppositely and are arranged in the square cavity. The first and second elastic insertion pieces 26 and 27 are respectively formed by continuously extending the second and fourth folding walls 22 and 24 forward and bending in opposite directions (backward). The first insertion guide arm 27 and the second insertion guide arm 29 are disposed opposite to each other, and are formed by bending the third folded wall 23 and the fifth folded wall 25. The first elastic insertion piece 26 is formed by sequentially connecting a first insertion guide section 261 and a first abutting conducting section 262. The second elastic insertion piece 28 is formed by sequentially connecting a second insertion guide section 281 opposite to the first insertion guide section 261 and a second contact conduction section 282 opposite to the first contact guide section 262. The first insertion guide arm 27, the second insertion guide arm 29, the first insertion guide section 261 and the second insertion guide section 281 cooperate to guide the mating male plug into the receptacle.

Through adopting above-mentioned technical scheme to set up, produced following beneficial technological effect at least: 1) the forming route of the terminal is effectively simplified, the production efficiency is improved, and the manufacturing cost is reduced; 2) the design structure of the terminal is simpler, the manufacturing implementation is facilitated, and the molding volume of the terminal can be reduced to a certain extent on the premise of consistent pre-transmission power, so that the implementation of a subsequent assembly process is facilitated; 3) the terminal has good stress stability, and the phenomenon of loosening in the traditional design structure is effectively avoided.

In order to further improve the conduction stability and reliability of the terminal and the male ferrule matched with the terminal, a first top contact conduction inner concave part 211 and a second top contact conduction inner concave part 231 are additionally arranged on the conductive core inserting section 2. The first and second top-contact through concave portions 211 and 231 are respectively formed by respectively pressing the first and third folded walls 21 and 23, and are oppositely arranged (as shown in fig. 4, 6, 7 and 8). After the male plug core is inserted and closed relative to the terminal, the first top contact is conducted with the inner concave part 211, the first top contact is conducted with the section 262, the second top contact is conducted with the inner concave part 231, the second top contact is conducted with the section 282 sequentially surrounding the periphery of the male plug core, and the top contact is conducted on the outer side wall of the male plug core.

The electric connector is mainly composed of an insulating plastic body and a terminal. Wherein, along its width direction, set up a series of slots in insulating plastic body for plug-in mounting, imbedding the terminal. However, in the prior art, an effective limiting means is lacked between the terminal and the slot, and the side wall of the slot is compressed mainly by the aid of self-rebounding bulging after the terminal is assembled, so that the axial relative position of the slot is determined. However, in the actual use process, the cable is inevitably subjected to the action of external pulling force, so that the terminal is easily loosened in the slot, the stability and reliability of signal transmission are further affected, and in a serious case, the cable is directly separated from the slot, and the signal transmission process is further interrupted. The locking elastic piece 251 is punched by the fifth folding wall 25 and is formed by bending along the direction away from the square-shaped cavity, and correspondingly, a limit groove (as shown in fig. 3, 4, 5 and 9) matched with the locking elastic piece 251 is added in the slot. Therefore, in the process of inserting and assembling the terminal and the insulating plastic body, the locking elastic sheet 251 slides along the slot, and in the process, the locking elastic sheet 251 is elastically deformed under the action of the lateral jacking force of the slot until correspondingly entering the limit groove matched with the slot (meanwhile, the locking elastic sheet 251 is elastically deformed in a recovery manner), so that the terminal is reliably fixed in the insulating plastic body.

For further enhancing the structural strength (mainly referring to the overall rigidity) of the locking spring 251, a strip-shaped groove 2511 (as shown in fig. 5) may be punched on the locking spring 251 along the length direction thereof.

Of course, as a further optimization of the above technical solution, the conductive core inserting section 2 further includes a limiting portion. The limiting portion is disposed right behind the locking spring 251 and is composed of a first limiting notch 221 and a second limiting notch 241 which are opposite to each other. The first and second limiting notches 221 and 241 are respectively formed by punching the second and fourth folded walls 22 and 24 in opposite directions (as shown in fig. 6, 7 and 8). The plastic body is provided with a plug mounting hole corresponding to the positions of the first limiting notch 221 and the second limiting notch 241. After the terminal is inserted in place relative to the insulating plastic body, the plug is timely placed in the plug mounting hole, namely, the first limiting notch 221 and the second limiting notch 241 are effectively blocked, so that the terminal is reliably fixed in the insulating plastic body.

Generally, the locking spring 251 is disposed to form a first locking protection between the terminal and the insulating plastic body, and the first limiting notch 221 and the second limiting notch 241 are disposed to form a second locking protection between the terminal and the insulating plastic body.

Furthermore, a fool-proof piece 252 is further added to the conductive core insertion section 2 according to the requirement. The fool-proof piece 252 is formed by continuously extending the fifth folded wall 25 and bending the fifth folded wall 90 degrees in the direction away from the square-shaped cavity (as shown in fig. 5), and correspondingly, a fool-proof sliding groove matched with the fool-proof piece 252 is arranged in the slot of the insulating plastic body, so that the occurrence of the phenomenon of reverse insertion of the terminal is effectively avoided, and the misoperation of workers in the assembling process is fundamentally avoided.

Finally, it should be noted that, as shown in fig. 2 and 3, the welding segment 1 has a U-shaped cross section and is arranged along a direction away from the conductive core insertion portion 2, and includes a first wire pressing area 11 and a second wire pressing area 12 connected in sequence. Along the axial direction, a plurality of force-increasing grooves 111 (as shown in fig. 6) are uniformly distributed on the first pressure line area 11 and are arranged in parallel with each other. After the cable is placed in place relative to the terminal, the first wire pressing area needs to be extruded and deformed to wrap the cable in the first wire pressing area, the force increasing groove 111 can effectively improve the wrapping force of the cable, and the probability of the pull-off phenomenon is effectively reduced.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An integrated terminal is characterized in that the integrated terminal is formed by blanking and bending a sheet metal; the integrated terminal comprises a welding section and a conductive core inserting section which are connected in sequence, wherein the conductive core inserting section comprises a first folding wall, a second folding wall, a third folding wall, a fourth folding wall and a fifth folding wall; the first folding wall, the second folding wall, the third folding wall and the fourth folding wall are sequentially connected along the clockwise direction to form a square cavity in a closed manner; the fifth turnover wall is formed by continuously extending the fourth turnover wall and bending the fourth turnover wall for 90 degrees along the clockwise direction, and the fifth turnover wall is attached to the outer side wall of the first turnover wall; the conductive core inserting section also comprises a first inserting elastic sheet, a first inserting guide arm, a second inserting elastic sheet and a second inserting guide arm; the first inserting elastic sheet and the second inserting elastic sheet are oppositely arranged and are both arranged in the square cavity; the first inserting elastic sheet and the second inserting elastic sheet are respectively formed by continuously extending the second turnover wall and the fourth turnover wall forwards and bending in the opposite direction; the first insertion guide arm and the second insertion guide arm are oppositely arranged and are formed by respectively continuing forward extension and bending of the third turnover wall and the fifth turnover wall; the first plug-in elastic sheet is formed by sequentially connecting a first plug-in guide section and a first top contact conduction section; the second plug-in elastic sheet is formed by sequentially connecting a second plug-in guide section opposite to the first plug-in guide section and a second top contact conduction section opposite to the first top contact guide section.

2. The integral terminal of claim 1 wherein the conductive core insertion section further comprises a first top contact conductive inner recess, a second top contact conductive inner recess; the first top contact conducting inner concave part and the second top contact conducting inner concave part are respectively formed by respectively pressing the first turnover wall and the third turnover wall and are oppositely arranged.

3. The integrated terminal of claim 1, wherein the conductive core insertion section further comprises a locking spring; the locking elastic sheet is punched by the fifth turnover wall and is formed by bending along the direction far away from the square-shaped cavity.

4. The one-piece terminal as claimed in claim 3, wherein a strip-shaped groove is stamped on the locking spring along the length direction.

5. The unitary terminal of claim 3, wherein the conductive core insertion segment further comprises a retainer; the limiting part is arranged right behind the locking elastic sheet and consists of a first limiting notch and a second limiting notch which are oppositely arranged; the first limiting notch and the second limiting notch are respectively formed by oppositely blanking the second turnover wall and the fourth turnover wall.

6. The integrated terminal of claim 1, wherein the conductive core insertion section further comprises a fool-proof piece; the fool-proof piece is formed by continuously extending the fifth turnover wall and bending the fifth turnover wall along the direction far away from the square-shaped cavity by 90 degrees.

7. The one-piece terminal according to claim 1, which is punched and bent from a sheet of metal; the conductive core inserting section is formed by directly extending the welding section.

8. The one-piece terminal according to any one of claims 1 to 7, wherein the welding section is U-shaped in cross section and arranged in a direction away from the conductive core insertion portion, and includes a first crimping region and a second crimping region connected in sequence; along the axial direction, a plurality of reinforcement grooves which are parallel to each other are uniformly distributed on the first line pressing area.

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