CN205724069U - Contact copper splinter and electric connector - Google Patents

Abstract

This utility model relates to connector technique field, particularly relate to contact copper splinter and electric connector, contact copper splinter includes electrical connection section and is located at the first fixed part and second fixed part at electrical connection section width two ends, electrical connection section includes some longitudinally oriented strips arranged in parallel and first Cross slat at the both ends being connected to each longitudinally oriented strip and the second Cross slat, first fixed part and the second fixed part are connected with the first Cross slat and the second Cross slat respectively, it is formed with cannelure between adjacent longitudinally oriented strip, position that first Cross slat is corresponding with cannelure and/or the second Cross slat position corresponding with cannelure are extended towards the direction of cannelure agnail bar.Design due to agnail bar, be equivalent to add in unit are the electrical-contact area of electrical connection section so that resistance diminishes, change the heating power of contact copper splinter, and then can the volume of contact copper splinter be designed to less, then the structure using the electric connector having contact copper splinter is the least.

Description

Contact copper splinter and electric connector

Technical field

This utility model relates to connector technique field, particularly relates to contact copper splinter and electric connector.

Background technology

In high current connector, a kind of electric connector generally used is by contact copper sheet and interior copper sheathing structure Becoming, under conditions of same size structure, the contact area between contact copper splinter and interior copper sheathing is bigger, So that the current capacity of this electric connector structure is higher, i.e. heating power can be the biggest, thus at electric current In the case of Yi Ding, the size of electric connector structure be can be made smaller.

United States Patent (USP) US4657335 discloses a kind of electric connector, show this kind refering to Figure 23 and is electrically connected Connecing the contact copper splinter of device, the thickness of contact copper splinter is t, and the width of the muscle of fence is d1, adjacent The width d2 of the hollow out between two muscle, fence one has n muscle, expects a width of D, expects a length of C, if Determining C, D, t, d1 is fixed value, and (d2 is the least, and n is the most, the torsion spring female terminal made in the future and public affairs The area that terminal directly contacts is the biggest, and the contact resistance of adapter is the least).But the limit due to Sheet Metal Forming Technology System, d2 have to be larger than equal to 1.2t, such as at the copper material strip of 0.6 millimeters thick, blanking width minimum 0.8 Millimeter, the copper rib width on fence is 0.8 millimeter.The copper strips having 50% obtains area and is removed by blanking , the area only remaining half can be as functional surfaces contact surface, so technique limits contact at present The quantity of muscle and contact area, this is a technical bottleneck.

That is prior art uses has above-mentioned this type electric connector of contact copper splinter to design due to its structure Limitation, at least have the disadvantage in that one, physical dimension fixing in the case of, effectively electrically connect Contact area cannot increase further: in the case of two, heating power is fixing, physical dimension cannot enter one Step is designed to less；Three, waste of material is big.

Utility model content

The purpose of this utility model is to provide a kind of contact copper splinter and electric connector, it is intended to solve existing The electric connector current capacity of technology cannot promote and structure cannot be designed to less technology further and ask Topic.

For achieving the above object, the first technical scheme of the present utility model is: contact copper splinter, application On electric connector, described contact copper splinter includes electrical connection section and is located at described electrical connection section width First fixed part at two ends and the second fixed part, described electrical connection section includes some longitudinal directions arranged in parallel Bar and be connected to first Cross slat at both ends and second Cross slat of each described longitudinally oriented strip, described first is solid Determine portion and described second fixed part is connected with described first Cross slat and described second Cross slat respectively, adjacent Described longitudinally oriented strip between be formed with cannelure；The position that described first Cross slat is corresponding with described cannelure Direction towards described cannelure is extended an agnail bar, and/or described second Cross slat and described cannelure Corresponding position is extended towards the direction of described cannelure agnail bar.

Preferably, described electrical connection section includes inner surface and outer surface；Described first Cross slat is extended The described agnail bar described agnail bar extended with described second Cross slat all towards outside described inner surface Tilt；Or, described agnail bar and described second Cross slat that described first Cross slat is extended extend The described agnail bar arranged is all towards described outer surface outer incline；Or, described first Cross slat extension sets The described agnail bar put towards described inner surface outer incline, described second Cross slat extended described fall Thorn bar is towards described outer surface outer incline；Or, the described agnail bar that described first Cross slat is extended Towards described outer surface outer incline, the extended described agnail bar of described second Cross slat is towards in described Surface outer incline.

Preferably, the length of each described agnail bar is less than or equal to the described cannelure corresponding with its position Length.

Preferably, the width of each described agnail bar is less than or equal to the described cannelure corresponding with its position Width.

Preferably, the length of each described agnail bar is identical or differs.

Preferably, each described agnail bar linearly shape, broken line shape or curve shape.

Preferably, described first fixed part is that described first Cross slat is towards being in reverse to described second Cross slat Some the first wing bars arranged in parallel that direction is extended；Described second fixed part is described second horizontal stroke To some second wings arranged in parallel that bar is extended towards the direction being in reverse to described first Cross slat Bar.

Preferably, described longitudinally oriented strip, described first Cross slat, described second Cross slat, described agnail bar, Described first wing bar and described second wing bar integrated punching molding.

Preferably, described agnail bar at least, and the quantity of described agnail bar is vertical less than or equal to described Twice to the quantity of groove.

The beneficial effects of the utility model: contact copper splinter of the present utility model, longitudinally oriented strip is electrical connection section In main electrical-contact area, for the loading of electric current with set out, by arranged in parallel for some longitudinally oriented strips, Can increase the effective electrical-contact area of electrical contacts, further, two the most adjacent longitudinally oriented strips it Between be provided with agnail bar, the setting of agnail bar is equivalent to fill up the gap existed because of cannelure, so, Agnail bar and longitudinally oriented strip are combined into electrical-contact area, are equivalent to further increase the effective of electrical connection section Electrical-contact area, contact copper splinter during current-carrying, there will be heating, such that it is able to change contact copper The heating power of shell fragment, and then can be designed to the least still ensure that it by the volume of contact copper splinter Heating power, then use the structure of the electric connector having this contact copper splinter can also be designed to less.

The second technical scheme of the present utility model is: electric connector, including interior copper sheathing, the first outer copper sheathing With the second outer copper sheathing, described electric connector also includes above-mentioned contact copper splinter, and described contact copper splinter is rolled up Being coiled into tubbiness and through described interior copper sheathing, described electrical connection section is connected to the inwall of described interior copper sheathing, described First fixed part is bent to and described interior copper towards the outer wall of described interior copper sheathing in the first end of described interior copper sheathing The outer wall of set abuts, and described first outer copper sheathing is socketed on the outside of described first fixed part；Described second is solid Determine portion outside the second end of described interior copper sheathing is bent to described interior copper sheathing towards the outer wall of described interior copper sheathing Wall abuts and reverses with the axis of described interior copper sheathing for axle center certain angle, described second outer copper sheathing socket Outside in described second fixed part.

Electric connector of the present utility model, in the case of guaranteeing that heating power is certain, can select above-mentioned The less contact copper splinter of structure diminish so that the structure of whole electric connector also followed by.

Accompanying drawing explanation

The structural representation of the contact copper splinter that Fig. 1 provides for this utility model embodiment.

The first structural side view of the contact copper splinter that Fig. 2 provides for this utility model embodiment.

The second structural side view of the contact copper splinter that Fig. 3 provides for this utility model embodiment.

The third structural side view of the contact copper splinter that Fig. 4 provides for this utility model embodiment.

4th kind of structural side view of the contact copper splinter that Fig. 5 provides for this utility model embodiment.

5th kind of structural side view of the contact copper splinter that Fig. 6 provides for this utility model embodiment.

6th kind of structural side view of the contact copper splinter that Fig. 7 provides for this utility model embodiment.

7th kind of structural side view of the contact copper splinter that Fig. 8 provides for this utility model embodiment.

8th kind of structural side view of the contact copper splinter that Fig. 9 provides for this utility model embodiment.

9th kind of structural side view of the contact copper splinter that Figure 10 provides for this utility model embodiment.

Tenth kind of structural side view of the contact copper splinter that Figure 11 provides for this utility model embodiment.

The structure cut away view of the electric connector that Figure 12 provides for this utility model embodiment.

The electric connector that Figure 13 provides for this utility model embodiment in the fabrication process, is in step S1 Time structural representation.

The electric connector that Figure 14 provides for this utility model embodiment in the fabrication process, is in step S2 Time structural representation.

The electric connector that Figure 15 provides for this utility model embodiment in the fabrication process, is in step S3 Time structural representation.

The electric connector that Figure 16 provides for this utility model embodiment in the fabrication process, is in step S4 Time structural representation.

The electric connector that Figure 17 provides for this utility model embodiment in the fabrication process, is in step S5 Time structural representation.

The electric connector that Figure 18 provides for this utility model embodiment in the fabrication process, is in step S6 Time structural representation.

Structure cut away view when the electric connector that Figure 19 provides for this utility model embodiment is connected with public pin.

The contact copper splinter that Figure 20 provides for this utility model embodiment winds in the structural representation after tubbiness Figure.

Figure 21 is the structure cut away view in the contact copper splinter shown in Figure 20 inserts after copper sheathing.

Figure 22 is the close-up schematic view in Fig. 1 at A.

Figure 23 is the structural representation of the contact copper splinter of prior art.

Reference includes:

The outer copper sheathing of copper sheathing 3 first in 1 contact copper splinter 2

4 second outer copper sheathing 5 torque tool 6 shells

7 public pin 10 electrical connection section 11 longitudinally oriented strips

12 first Cross slat 13 second Cross slat 14 cannelures

20 first fixed part 21 first wing bar 30 second fixed parts

31 second wing bar 40 agnail bars.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings, The most same or similar label represents same or similar element or has same or like merit The element of energy.The embodiment described below with reference to accompanying drawing 1～22 is exemplary, it is intended to be used for solving Release this utility model, and it is not intended that to restriction of the present utility model.

In description of the present utility model, it is to be understood that term " length ", " width ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", " outward " It is based on orientation shown in the drawings or position relationship in the orientation indicated or position relationship, is for only for ease of Describe this utility model and simplification description rather than instruction or the device of hint indication or element must have Specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limit of the present utility model System.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or dark Show relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", The feature of " second " can express or implicitly include one or more this feature.In this practicality In novel description, " multiple " are meant that two or more, unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", " connect ", the term such as " fixing " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be Removably connect, or integral；Can be to be mechanically connected, it is also possible to be electrical connection；It can be direct phase Even, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals or two elements Interaction relationship.For the ordinary skill in the art, can understand as the case may be Above-mentioned term concrete meaning in this utility model.

As shown in Fig. 1 to Figure 22, the contact copper splinter 1 that this utility model embodiment provides, mainly apply On electric connector, described contact copper splinter 1 includes electrical connection section 10 and is located at described electrical connection section 10 First fixed part 20 and second fixed part 30 at width two ends, described electrical connection section 10 includes some Bar longitudinally oriented strip arranged in parallel 11 and be connected to first Cross slat 12 at both ends of each described longitudinally oriented strip 11 With the second Cross slat 13, described first fixed part 20 and described second fixed part 30 respectively with described first Cross slat 12 and described second Cross slat 13 connect, and are formed with longitudinal direction between adjacent described longitudinally oriented strip 11 Groove 14；Described first Cross slat 12 position corresponding with described cannelure 14 is towards described cannelure 14 Direction is extended agnail bar 40, and/or described second Cross slat 13 is corresponding with described cannelure 14 Position extended towards the direction of described cannelure 14 have agnail bar 40.It should be noted that this reality With in new embodiment, the correspondence in the position that the first Cross slat 12 is corresponding with cannelure 14 refers to first The position that Cross slat 12 is at least corresponding with cannelure 14 is provided with agnail bar 40, it is also possible to be and interval The position of corresponding multiple cannelures 14 correspondence is provided with the agnail bar 40 at multiple interval；In like manner, second is horizontal Correspondence in the position that bar 13 is corresponding with cannelure 14 refer to the second Cross slat 13 at least with a longitudinal direction The position of groove 14 correspondence is provided with agnail bar 40, it is also possible to the multiple cannelures 14 being corresponding with interval are corresponding Position be provided with the agnail bar 40 at multiple interval.Therefore, above-mentioned should not be construed as limiting above-mentioned first horizontal Need to bar 12 and the second Cross slat 13 that correspondence groove 14 longitudinally in each is extended an agnail bar 40, but It is that it includes the first Cross slat 12 and the second Cross slat 13 correspondence groove 14 is extended longitudinally in each have agnail Bar 40.

Concrete, agnail bar 40 at least has a following set-up mode:

The first set-up mode as shown in Figures 4 and 5, the position that the first Cross slat 12 is corresponding with cannelure 14 Extended towards the direction of cannelure 14, such agnail bar 40 is combined with longitudinally oriented strip 11 thus adds electricity The effective electrical-contact area of connecting portion 10.

The second set-up mode as shown in figures 2-3, the position that the second Cross slat 13 is corresponding with cannelure 14 Extended towards the direction of cannelure 14, such agnail bar 40 is combined with longitudinally oriented strip 11 equally to be increased The effective electrical-contact area of electrical connection section 10.

The third set-up mode is as shown in Fig. 6～9, and the first Cross slat 12 and the second Cross slat 13 are with longitudinal The position of groove 14 correspondence is all extended towards the direction of cannelure 14, such agnail bar 40 and longitudinally oriented strip 11 combine the effective electrical-contact area equally increasing electrical connection section 10.

Contact copper splinter 1 in this utility model embodiment, longitudinally oriented strip 11 is main in electrical connection section 10 Electrical-contact area, for the loading of electric current with set out, by arranged in parallel for some longitudinally oriented strips 11, permissible Increase the effective electrical-contact area of electrical contacts, further, between two the most adjacent longitudinally oriented strips 11 Being provided with agnail bar 40, the setting of agnail bar 40 is equivalent to fill up the gap existed because of cannelure 14, So, agnail bar 40 and longitudinally oriented strip 11 are combined into electrical-contact area, are equivalent to further increase electricity The effective electrical-contact area of connecting portion 10, contact copper splinter 1 there will be heating during current-carrying, from And the heating power of contact copper splinter 1 can be changed, and then can be by the volume design of contact copper splinter 1 The least must still ensure that its heating power, then use has the electric connector of this contact copper splinter 1 Structure can also be designed to less.

In the present embodiment, typically weigh, under size of current the same terms, according to P=I with temperature rise²*R Understand (wherein, P represents that power, I represent that electric current, R represent resistance.), R is the biggest, and heating power is more Greatly, and R and electrical-contact area are inversely, and existing contact copper splinter the most of the present utility model 1 is due to agnail The design of bar 40, the electrical connection section 10 be equivalent in unit are increases electrical-contact area, promotes The current capacity of electrical connection section, makes R diminish, such that it is able to change the heating power of contact copper splinter 1.

In the present embodiment, described electrical connection section 10 includes inner surface and outer surface (sign), with Fig. 2 As a example by, inner surface is the left surface of electrical connection section 10, and outer surface is the right flank of electrical connection section 10；As Fig. 2, shown in 4 and 6, the described agnail bar 40 and described second that described first Cross slat 12 is extended The extended described agnail bar 40 of Cross slat 13 is all towards described outer surface outer incline；Or, such as figure 3, shown in 5 and 7, the extended described agnail bar of described first Cross slat 12 40 is horizontal with described second To the extended described agnail bar 40 of bar 13 all towards described inner surface outer incline；Or, such as Fig. 9 Shown in, the extended described agnail bar 40 of described first Cross slat 12 towards described inner surface outer incline, The extended described agnail bar 40 of described second Cross slat 13 is towards described outer surface outer incline；Or, As shown in Figure 8, the described agnail bar 40 that described first Cross slat 12 is extended is towards described outer surface Outer incline, the extended described agnail bar 40 of described second Cross slat 13 is towards described inner surface flare Tiltedly.Concrete, above-mentioned agnail bar 40 tilt towards design, both can select so that agnail bar 40 abut with the electrical connector being arranged on outside the outer surface contacting copper splinter 1, it is also possible to select to make agnail Bar 40 abuts with the electrical connector being arranged on outside the inner surface contacting copper splinter 1；So, when selecting agnail When bar 40 abuts with the electrical connector being arranged on outside the outer surface contacting copper splinter 1, be equivalent to add electricity Connecting portion 10 and the contact area of current input terminal；Copper splinter is contacted with being arranged on when selecting agnail bar 40 When electrical connector outside the inner surface of 1 abuts, be equivalent to add electrical connection section 10 and current output terminal Contact area, is all capable of increasing the function of electrical-contact area, can make at contact copper splinter 1 In the case of amassing necessarily, increase electrical-contact area, reduce resistance value, it is ensured that heating power is bigger；Anti-mistake For it is, when select design heating power one timing, can by contact copper splinter 1 area set That counts is less, so that the structural volume that use has the electric connector of this contact copper splinter 1 is less.This In embodiment, the length of each described agnail bar 40 is less than or equal to the described cannelure corresponding with its position The length of 14.Concrete, such as, when the only first Cross slat 12 or the second Cross slat 13 are provided with During agnail bar 40, the longest length that can be equal to corresponding cannelure 14 of length of agnail bar 40, The most substantially fill up the invalid electrical-contact area existed because of cannelure 14；And when the first Cross slat 12 be provided with the second Cross slat 13 agnail bar 40 and this agnail bar 40 position corresponding time, agnail The half of the longest length that can be designed as the cannelure 14 corresponding with position of the length of bar 40, so same The invalid electrical-contact area existed because of cannelure 14 substantially filled up by sample；Certainly, implement at other In example, the length sum of the agnail bar 40 that two positions are corresponding is less than or equal to the longitudinal direction corresponding with its position The length of groove 14.

Concrete, the dotted line B shown in Figure 22 is folding line when agnail bar 40 tilts.

In the present embodiment, the width of each described agnail bar 40 is less than or equal to described in corresponding with its position The width of cannelure 14.Concrete, the width of certain agnail bar 40 is equal to the longitudinal direction corresponding with its position During groove 14, it has substantially filled up the gap that cannelure 14 exists in the direction of the width, at effective electricity Connecting portion 10 areal extent can, it is possible to guarantee the gross area of agnail bar 40 as far as possible, correspondingly, permissible Increase effective electrical-contact area.

In the present embodiment, the length of each described agnail bar 40 is identical or differs.Concrete, agnail The length of bar 40 can be designed to identical as the case may be or differ, and can correspondingly increase The effective electrical-contact area of electrical connection section 10.

Such as, the length between each agnail bar 40 can be in one direction in being incremented by or successively decreasing, also Can be spaced and arrange towards cannelure 14；The most such as, the first Cross slat 12 and the second Cross slat 13 extend The agnail bar 40 arranged can be offset from each other distribution.

More specifically, each described agnail bar 40 linearly shape, broken line shape or curve shape.By It is to tilt certain angle to arrange in agnail bar 40, then its concrete shape is designed to rectilinear form, folding Wire shaped or curve shape, all so that agnail bar 40 has certain elasticity, the most conveniently make down Thorn bar 40 abuts with each electrical connector elasticity, it is achieved to the loading of electric current or set out.

Wherein, the agnail bar 40 as shown in Fig. 2～9 is linearly shape；Agnail as shown in Figure 10 Bar 40 is in broken line shape；Agnail bar 40 as shown in figure 11 is curved shape.

In the present embodiment, as it is shown in figure 1, described first fixed part 20 is described first Cross slat 12 court It is in reverse to some the first wing bars 21 arranged in parallel that the direction of described second Cross slat 13 is extended； Described second fixed part 30 is that described second Cross slat 13 is towards the direction being in reverse to described first Cross slat 12 Some extended the second wing bars 31 arranged in parallel.Concrete, the first fixed part 20 and second The effect of fixed part 30 is for being fixed on other electrical connectors whole contact copper splinter 1, wherein, Be made up of some the first wing bars 21 arranged in parallel first fixed part 20 be more prone to by deformation come with Other electrical connectors are fixing connects (such as riveting)；In like manner, by some the second wing bars arranged in parallel 31 constitute the second fixed part 30 is also more prone to fix with other electrical connectors to be connected (example by deformation Such as riveting).

Certainly, in other embodiments, the first fixed part 20 and the second fixed part 30 can also is that other Shape, the most netted, lamellar etc., repeat the most one by one at this.

In the present embodiment, described longitudinally oriented strip 11, described first Cross slat 12, described second Cross slat 13, Described agnail bar 40, described first wing bar 21 and described second wing bar 31 integrated punching molding.Concrete, By each longitudinally oriented strip the 11, first Cross slat the 12, second Cross slat 13, each agnail bar 40, each first wing bar 21 and each second wing bar 31 integrated punching molding, an operation can complete whole this utility model and implement The shaping structures of the contact copper splinter 1 of example, is suitable for producing in enormous quantities, and the good product consistency produced； It addition, in punching course, molding on the direct punching press position when cannelure 14 molding of agnail bar 40, It is to say, material will not be wasted in the design of cannelure 14, cost-effective, bring bigger for enterprise Economic benefit.

In the present embodiment, described agnail bar 40 at least, and the quantity of described agnail bar 40 is less than Twice equal to the quantity of described cannelure 14.Concrete, during agnail bar 40 at least only, i.e. Be equivalent to add the electrical-contact area of whole contact copper splinter 1, certainly, the quantity of agnail bar 40 between Article one, between the twice of the quantity of cannelure 14.

A kind of electric connector that this utility model embodiment also provides for, including interior copper sheathing the 2, first outer copper sheathing 3 and the second outer copper sheathing 4, described electric connector also includes above-mentioned contact copper splinter 1, described contact copper bullet Sheet 1 is wound into tubbiness and through described interior copper sheathing 2, and described electrical connection section 10 is connected to described interior copper sheathing 2 Inwall, described first fixed part 20 in the first end of described interior copper sheathing 2 towards outside described interior copper sheathing 2 Wall is bent to abut with the outer wall of described interior copper sheathing 2, and it is solid that described first outer copper sheathing 3 is socketed on described first Determine the outside in portion 20；Described second fixed part 30 in the second end of described interior copper sheathing 2 towards described interior copper The outer wall of set 2 is bent to abut with the outer wall of described interior copper sheathing 2 and with the axis of described interior copper sheathing 2 be Certain angle is reversed in axle center, and described second outer copper sheathing 4 is socketed on the outside of described second fixed part 30.

As shown in figure 12, concrete, will be contacted respectively with the second outer copper sheathing 4 by the first outer copper sheathing 3 First fixed part 20 of copper splinter 1 and the second fixed part 30 are fixed on the outer wall of interior copper sheathing 2, and, The electrical contacts of contact copper splinter 1 is connected on the inwall of interior copper sheathing 2 inwall with outer copper sheathing and realizes electrically Contact, due to, this contact copper splinter 1 has agnail bar 40, then this agnail bar 40 and interior copper sheathing 2 Inwall abut the contact area being i.e. equivalent to add whole electrical connection section 10 with the inwall of interior copper sheathing 2； The most as shown in figure 19, when the public pin 7 as male terminal inserts in interior copper sheathing 2, it is also possible to pass through agnail Bar 40 increases electrical connection section 10 and works as the electrical-contact area of the public pin 7 as male terminal, thus realizes increasing Add the loading of electric current and set out, in the case of the power of electric connector is certain, structure can be used less Contact copper splinter 1 and less interior copper sheathing the 2, first outer copper sheathing 3 and the second outer copper sheathing 4 of structure, thus The structure making the whole electric connector after being assembled into is less.

The electric connector of this utility model embodiment, in the case of guaranteeing that heating power is certain, Ke Yixuan Select the contact copper splinter 1 that above-mentioned structure is less, so that the structure of whole electric connector also followed by Diminish.

As shown in Figure 12～21, the manufacture method of a kind of electric connector that this utility model embodiment also provides for, Comprise the following steps:

S1, offer one contact copper splinter 1, be wound into tubbiness by described contact copper splinter 1, see Figure 13 With 20；

Copper sheathing 2 in S2, offer one, by the described contact copper splinter 1 of tubbiness through described interior copper sheathing 2, Described first fixed part 20 exposes outside the first end of described interior copper sheathing 2, and described second fixed part 30 reveals Go out outside the second end of described interior copper sheathing 2, see Figure 14 and 21；

S3, outwards bend described first fixed part 20 with the first end of described interior copper sheathing 2 for inflection point, and Form umbrella；Described second fixed part 30 is outwards bent with the second end of described interior copper sheathing 2 for inflection point, And form umbrella, see Figure 15；

S4, provide one first outer copper sheathing 3, by described first outer copper sheathing 3 along the of described interior copper sheathing 2 One end is pushed home into, and compresses described first fixed part 20 in described first outer copper sheathing 3 and described interior copper sheathing Between 2, see Figure 16；

S5, fix described first outer copper sheathing 3, reverse with the axis of described interior copper sheathing 2 for axle center described The angle that second fixed part 30 is certain, sees Figure 17；Concrete, when reversing the second fixed part 30, can Using torque tool 5 as shown in figure 17, if one end of this torque tool 5 has and is distributed ringwise A dry tooth bar, between these some gears insert between several second wing bars 31 of the second fixed part 30 At gap, then applying power axis of copper sheathing 2 within this torque tool 5 is that axle center rotates a certain angle, Make some the longitudinally oriented strips 11 contacting the electrical connection section 10 of copper splinter 1 in closing waist shape；

S6, provide one second outer copper sheathing 4, by described second outer copper sheathing 4 along the of described interior copper sheathing 2 Two ends are pushed home into, and compress described second fixed part 30 in described second outer copper sheathing 4 and described interior copper sheathing Between 2, see Figure 18.

Concrete, as shown in figure 19, first electric connector is loaded in shell 6, then public affairs pin 7 is inserted Time in interior copper sheathing 2, the longitudinally oriented strip 11 with the electrical connection section 10 contacting copper splinter 1 in interior copper sheathing 2 abuts, So when agnail bar 40 is obliquely installed towards medial surface, i.e. can increase electrical contacts 10 and public pin 7 Effective electrical-contact area, thus increase setting out of electric current.

The electric connector produced by the manufacture method manufacture of the electric connector of this utility model embodiment, Owing to employing above-mentioned contact copper splinter 1, in the case of guaranteeing that heating power is certain, can use Less interior copper sheathing the 2, first outer copper sheathing 3 and the second outer copper sheathing 4, so that produces is electrically connected The overall structure connecing device obtains little.

Understanding this utility model in sum is to have above-described good characteristic, is made it use On, promote the usefulness not having in conventional art and there is practicality, become the product of a great practical value Product.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, All any amendment, equivalent or improvement etc. made within thought of the present utility model and principle, all Within protection domain of the present utility model should be included in.

Claims (10)

1. contact copper splinter, is applied on electric connector, and described contact copper splinter includes electrical connection section and sets The first fixed part and the second fixed part in described electrical connection section width two ends, it is characterised in that institute State electrical connection section and include some longitudinally oriented strips arranged in parallel and the both ends being connected to each described longitudinally oriented strip First Cross slat and the second Cross slat, described first fixed part and described second fixed part are respectively with described One Cross slat and described second Cross slat connect, and are formed with cannelure between adjacent described longitudinally oriented strip；Institute State that the first Cross slat position corresponding with described cannelure is extended towards the direction of described cannelure agnail Bar, and/or the described second Cross slat position corresponding with described cannelure extend towards the direction of described cannelure It is provided with agnail bar.

Contact copper splinter the most according to claim 1, it is characterised in that described electrical connection section includes Inner surface and outer surface；The extended described agnail bar of described first Cross slat and described second Cross slat Extended described agnail bar is all towards described inner surface outer incline；Or, described first Cross slat prolongs Stretch the described agnail bar of the setting described agnail bar extended with described second Cross slat all towards outside described Surface outer incline；Or, the extended described agnail bar of described first Cross slat is towards described inner surface Outer incline, the extended described agnail bar of described second Cross slat is towards described outer surface outer incline；Or Person, the extended described agnail bar of described first Cross slat towards described outer surface outer incline, described The extended described agnail bar of two Cross slats is towards described inner surface outer incline.

Contact copper splinter the most according to claim 1, it is characterised in that the length of each described agnail bar Degree is less than or equal to the length of the described cannelure corresponding with its position.

Contact copper splinter the most according to claim 1, it is characterised in that the width of each described agnail bar Degree is less than or equal to the width of the described cannelure corresponding with its position.

Contact copper splinter the most according to claim 1, it is characterised in that the length of each described agnail bar Spend identical or differ.

Contact copper splinter the most according to claim 1, it is characterised in that each described agnail bar is in directly Wire shaped, broken line shape or curve shape.

7. according to the contact copper splinter described in any one of claim 1～6, it is characterised in that described first Fixed part is some that described first Cross slat is extended towards the direction being in reverse to described second Cross slat First wing bar arranged in parallel；Described second fixed part is that described second Cross slat is towards being in reverse to described first Some the second wing bars arranged in parallel that the direction of Cross slat is extended.

Contact copper splinter the most according to claim 7, it is characterised in that described longitudinally oriented strip, described First Cross slat, described second Cross slat, described agnail bar, described first wing bar and described second wing bar Integrated punching molding.

Contact copper splinter the most according to claim 1, it is characterised in that described agnail bar is at least , and the quantity of described agnail bar is less than or equal to the twice of quantity of described cannelure article one,.

10. electric connector, including interior copper sheathing, the first outer copper sheathing and the second outer copper sheathing, it is characterised in that Described electric connector also includes the contact copper splinter described in any one of claim 1～9, described contact copper bullet Sheet is wound into tubbiness and through described interior copper sheathing, and described electrical connection section is connected to the inwall of described interior copper sheathing, Described first fixed part is bent to described towards the outer wall of described interior copper sheathing in the first end of described interior copper sheathing The outer wall of interior copper sheathing abuts, and described first outer copper sheathing is socketed on the outside of described first fixed part；Described Two fixed parts are bent to and described interior copper sheathing towards the outer wall of described interior copper sheathing in the second end of described interior copper sheathing Outer wall abut and reverse certain angle, described second outer copper with the axis of described interior copper sheathing for axle center It is socketed on the outside of described second fixed part.