CN218997122U - Terminal for connecting a plurality of terminals - Google Patents

Abstract

Disclosed herein is a terminal, including: the plug-in connection structure comprises a plug-in connection part, a fixing part connected with the plug-in connection part, and a crimping part connected with the fixing part, wherein the plug-in connection part is used for being connected with a butt-plug terminal in a matched mode, the crimping part is used for crimping a conductor and comprises a crimping body, a first crimping piece and a second crimping piece, the first crimping piece and the second crimping piece extend from two sides of the crimping body respectively, and a mosaic structure matched with each other in a crimping state is arranged between the first crimping piece and the second crimping piece. The terminal is formed by stamping and curling, no assembling step is needed in the manufacturing process, the difficulty and the production cost are reduced, the production efficiency can be effectively improved, the market competitiveness is enhanced, and the coaxiality of the inserting part and the fixing part can be ensured.

Description

Terminal for connecting a plurality of terminals

Technical Field

The utility model relates to the field of electrical connection, in particular to a terminal.

Background

Connectors are a component that electronic engineering technicians often contact. The function is as follows: and a bridge for communication is erected between the blocked or isolated circuits in the circuit, so that current flows, and the circuit achieves a preset function. The connector is an indispensable component in the electronic equipment, and its form and structure are varied widely, and are as large as an airplane ship and as small as a remote control toy. There are various forms of connectors depending on the application object, frequency, power, application environment, etc.

The HSD connector is a High Speed Data connector, i.e., a High Speed transmission connector, which is required for hand-held products such as cell phones, digital cameras, MP3 players, personal Digital Assistants (PDAs), and automobiles. The HSD connector is a data transmission connector which is symmetrical on the basis of a four-core level principle and has impedance controlled to be about 100 omega. HSD connectors are the most important piece of auxiliary connector in automotive video, which is concerned with the integrity and efficiency of the video. Wherein the terminals are the most important part of the connector, the terminals act as bridges allowing the electronic components to be closely coupled together to complete the circuit. At present, for the central terminal of the HSD connector, the structure is complex, the coaxiality is not well ensured, and meanwhile, the existing B-type crimping is relatively expensive. Accordingly, there is a need to provide a new terminal solution to the above-mentioned problems.

Disclosure of Invention

An object of the present utility model is to provide a terminal which is simple in structure, good in coaxiality and at the same time, saves materials.

A terminal, comprising: the plug-in connection structure comprises a plug-in connection part, a fixing part connected with the plug-in connection part, and a crimping part connected with the fixing part, wherein the plug-in connection part is used for being connected with a butt-plug terminal in a matched mode, the crimping part is used for crimping a conductor and comprises a crimping body, a first crimping piece and a second crimping piece, the first crimping piece and the second crimping piece extend from two sides of the crimping body respectively, and a mosaic structure matched with each other in a crimping state is arranged between the first crimping piece and the second crimping piece.

Therefore, the whole structure of the terminal is simple by arranging the inserting part, the fixing part and the crimping part, and the conductor is fixed by the first crimping piece and the second crimping piece.

Preferably, the mosaic structure includes a protrusion provided on one of the first crimping piece and the second crimping piece, and a groove provided on the other of the first crimping piece and the second crimping piece, the protrusion and the groove being mutually engaged in the crimped state.

Therefore, through setting the bulges and the grooves on the first pressing sheet and the second pressing sheet, the conductors can be ensured to be embedded and fixed, the copper wires are prevented from being exposed due to overlarge gaps, and meanwhile, materials are saved compared with the B-type pressing.

Preferably, the open cavity formed by connecting the crimping body, the first crimping piece and the second crimping piece is matched with the outer surface of the conductor.

Whereby the open cavity matches the outer surface of the conductor, when the conductor is placed on the open cavity for crimping, the conductor and the crimping part are ensured to be compact.

Preferably, top edges of the first and second crimping pieces are contacted to cover the conductor in a state that the protrusion and the groove are fitted to each other.

Thus, by determining that the protrusion and the recess are engaged with each other, ensuring that the conductor can be wrapped.

Preferably, the inner peripheral wall of the open cavity is further formed with annular grooves disposed at intervals in the axial direction, and the annular grooves are in mating contact with the outer surface of the conductor.

Thereby, the processing time of the product is reduced, by arranging annular grooves at intervals on the inner peripheral wall of the open cavity, ensuring a better fixation of the conductors.

Preferably, the connector further comprises a first transition portion, and the plug-in portion is connected with the fixing portion through the first transition portion.

Therefore, the first transition part is set to enable the plug-in connection part and the fixing part to be in smooth transition, and meanwhile the first transition part also plays a role of stopping.

Preferably, the plugging portion and the fixing portion are cylindrical, the first diameter of the plugging portion is smaller than the second diameter of the fixing portion, and the plugging portion is connected with the fixing portion through the first transition portion in a conical shape.

Therefore, the plug-in part and the fixing part are cylindrical, the structure is simple, and smooth transition between the plug-in part and the fixing part is ensured by limiting the shape of the first transition part.

Preferably, the fixing part further comprises a second transition part, and the fixing part is connected with the crimping part through the second transition part.

Thus, the second transition portion is provided to smoothly transition the fixing portion and the pressure-bonding section.

Preferably, the second transition is an open section extending from the front end of the crimp body, a top edge of the open section being lower than a top edge of the first crimp tab and/or the second crimp tab.

Thus, by providing the specific shape of the second transition portion, manufacturability of the connection of the crimping portion 23 and the fixing portion 22 is ensured.

Preferably, a third transition part is further connected between the fixing part and the open section, the third transition part is cylindrical, and a third diameter of the third transition part is larger than the first diameter and smaller than the second diameter.

Thus, by providing the third transition portion, the manufacturability of the terminal is ensured.

Preferably, the plug-in part and the fixing part are formed by punching, crimping and forming a plate.

Therefore, no assembly step is needed in the manufacturing process of stamping, crimping and forming, the difficulty and the production cost are reduced, the production efficiency can be effectively improved, the market competitiveness is enhanced, and the coaxiality of the inserting part and the fixing part is ensured.

Preferably, the insertion part and the fixing part are hollow structures.

Therefore, the plug-in part and the fixed internal structure are determined, and the structure is simple.

The utility model has the following beneficial effects:

1. the plug-in part and the fixing part of the terminal are formed by stamping and curling, no assembling step is adopted in the manufacturing process, the difficulty and the production cost are reduced, the production efficiency can be effectively improved, the market competitiveness is enhanced, and the coaxiality of the plug-in part and the fixing part can be ensured.

2. The crimping part of the terminal adopts circular crimping, so that the concentricity of the whole terminal is ensured, the impedance is reduced, and compared with B-type crimping, the material is reduced.

3. The first pressing sheet and the second pressing sheet of the terminal are provided with the protrusions and the grooves, so that the embedding degree is good when the protrusions and the grooves are embedded with each other, and the copper wires are prevented from being exposed due to overlarge gaps.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings that are needed in the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present disclosure, and that other drawings may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

Fig. 1 is an assembled view of a terminal and an insulator according to the present utility model.

Fig. 2 is a schematic structural view of the terminal of the present utility model.

The figures are marked as follows:

1-insulator, 11-cavity, 2-terminal, 21-plug-in part, 22-fixing part,

23-crimp, 231-crimp body, 232-first crimp, 233-second crimp,

234-protrusions, 235-grooves, 236-annular grooves, 24-first transitions,

25-second transition, 26-third transition.

Detailed Description

Various exemplary embodiments of the present utility model will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise.

The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the utility model, its application, or uses.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of exemplary embodiments may have different values.

As shown in fig. 1 and 2, a terminal 2 includes: the plug-in connection part 21, with the fixed part 22 that plug-in connection part 21 is connected, and with the crimping portion 23 that fixed part 22 is connected, plug-in connection part 21 is used for being connected with opposite plug-in terminal, crimping portion 23 is used for the crimping conductor, crimping portion 23 includes the crimping body, from crimping body both sides respectively the first crimping piece and the second crimping piece that extend, be provided with the mosaic structure of mutually supporting under the crimping state between first crimping piece and the second crimping piece.

Specifically, the insulator 1 has a chamber accommodating the terminal 2, the chamber having an inlet and an outlet, accommodating the terminal 2 into the insulator 1, the plug portion 21 protruding outside the insulator 1 through the outlet at one end of the insulator 1, the plug portion 21 being for mating connection with the opposite terminal; the cavity of the insulator 1 is also provided with a fixing cavity 11 for fixing the terminal, a fixing part 22 is fixed in the fixing cavity 11, a gap is reserved between the outer contour of the fixing part 22 and the inner contour of the fixing cavity 11, one end of the fixing part 22 is connected with an inserting part 21, and the other end is connected with a crimping part 23; the crimp portion 23 includes a crimp body 231, a first crimp piece 232, and a second crimp piece 233, and the first and second crimp pieces 232, 233 are formed extending from both sides of the crimp body 2, respectively. Thus, the terminal is simplified in overall structure by providing the insertion portion 21, the fixing portion 22, and the crimping portion 23, and the conductor is fixed by the first crimping piece and the second crimping piece.

In this embodiment, the material of terminal selects tin bronze, and the advantage lies in: (1) Copper alloys have excellent physicochemical properties, and pure copper has excellent electrical, thermal and thermal conductivity. (2) The cast copper alloy has good processability, good plasticity, convenient cold and hot forming and good casting performance. (3) has excellent antifriction, elasticity and fatigue properties.

After the terminal is formed, firstly plating nickel on the surface of the terminal, wherein the plating specification is as follows: after 2um min, the whole nickel plating is carried out, the inserting part 21 is plated with gold, the press connection part 23 is plated with tin, the specification of the gold plating layer is 0.38um min, and the specification of the tin plating layer is 1um min.

The gold plating of the plugging portion 21 is to ensure better conductivity of the plugging portion 21; the crimp portion 23 is tin plated for better crimping.

As shown in fig. 2, the damascene structure includes a protrusion 234 provided on one of the first crimping piece 232 and the second crimping piece 233, and a recess 235 provided on the other of the first crimping piece 232 and the second crimping piece 233, the protrusion 234 and the recess 235 being fitted to each other in the crimped state.

Specifically, the damascene structure includes a protrusion 234 and a recess 235;

in the present embodiment, the protrusion 234 is provided on the first crimping piece 232, and the groove 235 is provided on the second crimping piece 233; the protrusion 234 is in a tooth shape, the groove 235 is a tooth-shaped groove matched with the protrusion, and when the first pressing tab 232 and the second pressing tab 233 are in inward circular pressing connection, the outer surfaces of the protrusion 234 and the groove 235 are mutually abutted to form a jogged state.

In other embodiments, the protrusion 234 may be any shape with inclined sides, such as triangle, trapezoid, etc.

Therefore, by setting the bulges and the grooves with the inclined edges on the first pressing connection piece and the second pressing connection piece, the conductors can be embedded and fixed, the copper wires are prevented from being exposed due to overlarge gaps, and meanwhile, materials are saved compared with the B-type pressing connection.

In another embodiment, the protrusion 234 is provided on the second crimping piece 233 and the recess 235 is provided on the first crimping piece 232.

Preferably, the open cavity formed by the connection of the crimping body 231, the first crimping piece 232, and the second crimping piece 233 matches the outer surface of the conductor.

Specifically, the conductor is placed on an open cavity, that is, the crimping body 231, the first crimping piece 232, and the second crimping piece 233 are non-closed in the circumferential direction, with a gap in between; to ensure tightness after crimping, an open cavity is provided to match the outer surface of the conductor.

Preferably, top edges of the first and second crimping pieces 232 and 233 are contacted to cover the conductor in a state where the protrusion 234 and the recess 235 are fitted to each other.

In this embodiment, the crimp body 232, the first crimp tab 232 and the second crimp tab 233 are crimped in a circular shape, so that the crimp portion 23 is crimped into a circular central cavity, and the protrusion 234 of the first crimp tab 232 and the groove 235 of the second crimp tab 233 are engaged with each other, so that the conductor is wrapped in the hollow cavity of the crimp portion 23.

Preferably, the inner peripheral wall of the open cavity is further formed with annular grooves 236 disposed at intervals in the axial direction, and the annular grooves 236 are in mating contact with the outer surface of the conductor.

Specifically, in order to ensure that the conductor is firmly crimped in the central control cavity of the crimping part 23, annular grooves 236 are further arranged at intervals on the inner peripheral wall of the open cavity, and when the conductor is crimped with the first crimping piece 232 and the second crimping piece 233, the outer periphery of the conductor is crimped into the annular grooves 236 through crimping deformation, so that the conductor can be tightly attached in the crimping part 23, and the pulling-out resistance and bending resistance of the crimping are better.

Preferably, the connector 21 is connected to the fixing portion 22 via the first transition portion 24, and further comprises a first transition portion 24.

Specifically, in order to ensure smooth transition between the first transition portion 24 and the fixing portion 22, in this embodiment, the first transition portion 24 is used to connect the first transition portion 24 and the fixing portion 22, and meanwhile, the first transition portion 24 cooperates with the conical surface of the cavity 11 to play a role of front stop.

Preferably, the insertion portion 21 and the fixing portion 22 are cylindrical, the first diameter of the insertion portion 21 is smaller than the second diameter of the fixing portion 22, and the insertion portion 21 is connected to the fixing portion via the first transition portion 24 having a tapered cylindrical shape.

Specifically, in view of the ease of assembling the terminal 2, the terminal 2 can be more conveniently mounted in the insulator 1, the insertion portion 21 and the fixing portion 22 of the terminal 1 are designed to be cylindrical, and the cylindrical workability is simple, and the material is more saved than the B-type press-connection.

In the present embodiment, the diameter of the fixing portion 22 is designed to be larger than the diameter of the insertion portion 21, so that the installation of the terminal 2 can be more ensured, while the diameter of the first transition portion 24 at the end connected to the insertion portion 21 is designed to be smaller than the diameter at the end connected to the fixing portion 22, i.e., the shape of the insertion portion 21 is a tapered cylinder; the plug-in part 21 and the fixing part 22 are smoothly transited, and meanwhile, the limit function is realized through the conical surface.

Preferably, the fixing portion 22 further includes a second transition portion 25, and the pressure-bonding portion 23 is connected to the fixing portion via the second transition portion 25.

In this embodiment, the terminal 2 is further provided with a second transition portion 25 for connecting the fixing portion 22 and the press-connection portion 23, and by providing the second transition portion 25, the fixing portion 22 and the press-connection portion 23 are smoothly transited, and at the same time, stress generated by direct connection of the press-connection portion 23 and the fixing portion 22 is avoided, so that the service life of the terminal is prolonged, and better press-connection molding of the press-connection portion 23 and the conductor is ensured.

Preferably, the second transition portion 25 is an open section extending from the front end of the crimp body 231, the top edge of the open section being lower than the top edge of the first crimp tab 232 and/or the second crimp tab 233.

In the present embodiment, the second transition portion 25 is an open section extending from the front end of the crimping body 231, and in order to secure manufacturability of the connection of the crimping portion 23 with the fixing portion 22, a top edge of the open section is designed to be lower than a top edge of the first crimping piece 232 and/or the second crimping piece 233.

Preferably, a third transition portion 26 is further connected between the fixing portion 22 and the open section, the third transition portion 26 is cylindrical, and a third diameter of the third transition portion 26 is greater than the first diameter and less than the second diameter.

In this embodiment, in order to ensure manufacturability of manufacturing the terminal 2, a third transition portion 26 is provided between the fixing portion 22 and the open section, the fixing portion 22 and the second transition portion 25 are connected, and an excessive stress caused by direct connection between the second transition portion 25 and the fixing portion 22 is avoided, so that the crimping portion 23 and the fixing portion 22 are broken when the terminal 2 is used, and therefore, the diameter of the third transition portion 26 is set to be greater than the first diameter and smaller than the second diameter, and meanwhile, the third transition portion 26 plays a role of rear stop and limit.

Preferably, the insertion portion 21 and the fixing portion 22 are formed by punching and crimping a plate material.

In the embodiment, the plugging portion 21 and the fixing portion 22 are made of tin bronze plates with the thickness of 2mm through stamping and crimping, and assembling steps are omitted in the manufacturing process, so that the difficulty and the production cost are reduced, the production efficiency can be effectively improved, and the market competitiveness is enhanced.

Specifically, the cross-sectional shapes of the insertion portion 21 and the fixing portion 22 are circular, and the insertion portion 21 and the fixing portion 22 are coaxially connected through the first transition portion 24.

The stamping and curling forming method has the advantages that:

(1) The dimensional accuracy is ensured by the die, so that the processed parts have stable quality and good consistency and have the characteristic of' identical die.

(2) The stamping forming can obtain parts with thin wall, light weight, good rigidity, high surface quality and complex shape;

(3) The material utilization rate is high, and the method belongs to small-amount chipless processing;

(4) The efficiency is high, the operation is convenient, and the technical grade of the required workers is not high;

(5) The die has long service life and low production cost.

Preferably, the insertion portion 21 and the fixing portion 22 have a hollow structure.

In this embodiment, the plug portion 21 and the fixing portion 22 are designed to be hollow, so that the terminal 22 is lighter in weight and saves materials.

While certain specific embodiments of the utility model have been described in detail by way of example, it will be appreciated by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the utility model. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the utility model. The scope of the utility model is defined by the appended claims.

Claims (12)

1. A terminal, comprising: the plug-in connection structure comprises a plug-in connection part, a fixing part connected with the plug-in connection part, and a crimping part connected with the fixing part, wherein the plug-in connection part is used for being connected with a butt-plug terminal in a matched mode, the crimping part is used for crimping a conductor and comprises a crimping body, a first crimping piece and a second crimping piece, the first crimping piece and the second crimping piece extend from two sides of the crimping body respectively, and a mosaic structure matched with each other in a crimping state is arranged between the first crimping piece and the second crimping piece.

2. The terminal of claim 1, wherein the damascene structure includes a protrusion provided on one of the first crimping piece and the second crimping piece, and a groove provided on the other of the first crimping piece and the second crimping piece, the protrusion and the groove being fitted to each other in the crimped state.

3. The terminal of claim 2, wherein the crimp body, the first crimp tab, and the second crimp tab are joined to form an open cavity that mates with an outer surface of the conductor.

4. The terminal of claim 3, wherein top edges of the first crimping piece and the second crimping piece are in contact in a state where the projection and the recess are fitted to each other to cover the conductor.

5. A terminal according to claim 3, wherein the inner peripheral wall of the open cavity is further formed with annular grooves spaced in the axial direction, the annular grooves being in mating contact with the outer surface of the conductor.

6. The terminal of claim 1, further comprising a first transition portion, the plug portion being connected with the securing portion via the first transition portion.

7. The terminal of claim 6, wherein the mating portion and the fixing portion are cylindrical, a first diameter of the mating portion is smaller than a second diameter of the fixing portion, and the mating portion is connected to the fixing portion via the first transition portion of the conical shape.

8. The terminal of claim 7, further comprising a second transition portion, the securing portion being connected with the crimp portion via the second transition portion.

9. The terminal of claim 8, wherein the second transition is an open section extending from a front end of the crimp body, a top edge of the open section being lower than a top edge of the first crimp tab and/or the second crimp tab.

10. The terminal of claim 9, wherein a third transition portion is further connected between the fixed portion and the open section, the third transition portion being cylindrical, a third diameter of the third transition portion being greater than the first diameter and less than the second diameter.

11. The terminal of claim 7, wherein the mating portion and the securing portion are stamped and crimped from a sheet material.

12. The terminal of claim 11, wherein the mating portion and the securing portion are hollow structures.

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