CN104733976A - Connector and manufacturing method thereof - Google Patents
Connector and manufacturing method thereof Download PDFInfo
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- CN104733976A CN104733976A CN201310717166.0A CN201310717166A CN104733976A CN 104733976 A CN104733976 A CN 104733976A CN 201310717166 A CN201310717166 A CN 201310717166A CN 104733976 A CN104733976 A CN 104733976A
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Abstract
The invention discloses a connector manufacturing method and a connector manufactured with the method. The method comprises the steps of providing a base material; forming a plurality of conductive terminals on the base material, wherein each conductive terminal is provided with a main section and two extending sections, and the two extending sections of each conductive terminal extend from the same end of the main section of the conductive terminal; obtaining an insulating body through injection molding of an insulating material so as to fix the base material and the conductive terminals in the insulating body, wherein the main section of each conductive terminal is fixed to the interior of the insulating body in parallel, and the two extending sections of each conductive terminal extend out of the insulating body from the corresponding main section and are located on two opposite sides of the insulating body. The arrays of the conductive terminals are separated so as to prevent the conductive terminals from being connected with one another.
Description
Technical field
The present invention relates to a kind of connector, and particularly relate to a kind of connector and its manufacture method.
Background technology
In recent years, along with scientific and technological industry is day by day flourishing, the products such as electronic installation such as notebook computer (notebookcomputer, NB), panel computer (tablet computer) and Smartphone (smart phone) occur in daily life continually.Kenel and the using function of electronic installation are more and more polynary, and convenience and practicality make these electronic installations more popular, can use for different purposes.Except the function that electronic installation itself has, the inside of electronic installation can arrange connector usually, to make electronic installation can connect other external device (ED)s, and increases the application function of electronic installation.
Fig. 1 is the generalized section of existing a kind of connector.Connector 50 generally includes insulating body 52 and multiple conducting terminal 54, wherein each conducting terminal 54 comprises main paragraph 54a and at least one extension 54b, main paragraph 54a is fixed in insulating body 52, and the extension 54b of conducting terminal 54 connects main paragraph 54a, and extends to outside insulating body 54.Because the manufacture method of this type of connector 50 normally first makes many conducting terminals 54 respectively, then conducting terminal 54 is pressed in insulating body 52.This type of production method can need be realized by fixed mechanism fixed insulation body 52.So, insulating body 52 need have suitable thickness, could be fixed on smoothly on described fixed mechanism.In addition, conducting terminal 54 is limited to manufacture craft factor, usually also only can vertically insert in insulating body 52.That is the bearing of trend of main paragraph 54a is haply perpendicular to the length direction (as shown in Figure 1) of insulating body 52.Therefore, in order to hold the main paragraph 54a of conducting terminal 54, the thickness of insulating body 52 needs identical with the length of main paragraph 54a haply.So, the integral thickness of connector 50 is thickening, is unfavorable for being applied in the electronic product of slimming design.On the other hand, portion of techniques is had to be pressed together on completed conducting terminal by insulating barrier at present.Though this type of technology can reduce the integral thickness of connector, conducting terminal easily produces bending in bonding processes, and insulating barrier easily peels off from conducting terminal, and then affects the reliability of connector.
Summary of the invention
The object of the present invention is to provide a kind of manufacture method of connector, the integral thickness of connector can be reduced, and improve the reliability of connector.
Another object of the present invention is to provide a kind of connector, has thin design and good reliability.
For reaching above-mentioned purpose, the manufacture method of connector of the present invention comprises the following steps.One base material is provided.On base material, form the multiple conducting terminals being arranged in array, wherein each conducting terminal has a main paragraph and two extensions, and two extensions extend from same one end of main paragraph toward the direction away from main paragraph.One insulating material ejection formation is formed an insulating body, so that base material and conducting terminal are fixed in insulating body, wherein the main paragraph of each conducting terminal is fixed in insulating body abreast, and two extensions to extend to separately insulating body from main paragraph and are positioned at the relative both sides of insulating body.Be separated the array of conducting terminal, do not connect each other to make conducting terminal.
Connector of the present invention comprises a base material, an insulating body and multiple conducting terminal.The one-body molded status of conducting terminal is on base material.Conducting terminal is arranged in array and does not connect each other, wherein each conducting terminal has a main paragraph and two extensions, main paragraph is fixed in insulating body abreast, and two extensions extend from same one end of main paragraph toward the direction away from main paragraph, and extend to the relative both sides being positioned at insulating body outside insulating body separately.
In one embodiment of this invention, the step forming conducting terminal on base material comprises punch forming (punching) or etching (etching) manufacture craft.
In one embodiment of this invention, the manufacture method of above-mentioned connector also comprises, and after being base material is formed the step of conducting terminal, plating (plating) protective layer is on conducting terminal.
In one embodiment of this invention, the manufacture method of above-mentioned connector also comprises, and after the array being separated conducting terminal, is fixed on by insulating body on a metal framework.
In one embodiment of this invention, above-mentioned insulating body has at least one first snap-in structure, be positioned at one end of insulating body, and metal framework has at least one second snap-in structure, is positioned at one end of metal framework and corresponds to the first snap-in structure.Insulating body is being fixed in the step on metal framework, is also comprising and insulating body is interfered with each other by the first snap-in structure and the second snap-in structure and is fixed on metal framework.
In one embodiment of this invention, in the step of above-mentioned formation insulating body, also comprise and form multiple being opened on insulating body simultaneously.Opening exposes conducting terminal accordingly, and the main paragraph of each conducting terminal is close to corresponding opening and is fixed in insulating body, and two extensions are respectively since the opening of correspondence extends to outside insulating body.
In one embodiment of this invention, above-mentioned connector also comprises a metal framework, and insulating body is fixed on metal framework.
In one embodiment of this invention, above-mentioned insulating body has at least one first snap-in structure, be positioned at one end of insulating body, and metal framework has at least one second snap-in structure, is positioned at one end of metal framework and corresponds to the first snap-in structure.Insulating body is interfered with each other by the first snap-in structure and the second snap-in structure and is fixed on metal framework.
In one embodiment of this invention, the first above-mentioned snap-in structure comprises a draw-in groove, and the second snap-in structure comprises a projection.
In one embodiment of this invention, the first above-mentioned snap-in structure is suitable for moving relative to the second snap-in structure, to adjust the distance between insulating body and metal framework.
In one embodiment of this invention, above-mentioned insulating body has multiple opening.Opening exposes conducting terminal accordingly.The main paragraph of each conducting terminal is close to corresponding opening and is fixed in insulating body, and two extensions are respectively since the opening of correspondence extends to outside insulating body.
In one embodiment of this invention, the distance between two extensions of above-mentioned each conducting terminal is less than the distance of two extensions relative to main paragraph.
Based on above-mentioned, the base material being formed with conducting terminal is fixed in insulating body by connector of the present invention and its manufacture method while insulating material ejection formation is formed insulating body.So, step conducting terminal being fixed on insulating body performs in same manufacture craft with the step forming insulating body, the main paragraph of each conducting terminal can be made to be fixed in insulating body abreast, that is the bearing of trend of conducting terminal can be considered it is be parallel to insulating body.So, the present invention effectively can reduce the thickness that insulating body is used for needed for coated with conductive terminal, and conducting terminal and insulating body are not easily separated.Accordingly, the manufacture method of connector of the present invention can reduce the integral thickness of connector, and improves the reliability of connector, and makes connector have thin design and good reliability.
For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate appended accompanying drawing to be described in detail below.
Accompanying drawing explanation
Fig. 1 is the generalized section of existing a kind of connector;
Fig. 2 is the Making programme figure of the connector of one embodiment of the invention;
Fig. 3 A to Fig. 3 D is the schematic diagram of the manufacture method of the connector of Fig. 2;
Fig. 4 is the close-up schematic view of the connector of one embodiment of the invention;
Fig. 5 is the enlarged fragmentary cross section of the connector of Fig. 4.
Symbol description
50,100: connector
52,120: insulating body
54,110: conducting terminal
54a, 112: main paragraph
54b, 114a, 114b: extension
102: base material
122: opening
124: the first snap-in structures
130: metal framework
132: the second snap-in structures
D1, d2: distance
D: bearing of trend
L: length direction
T: thickness
Embodiment
Fig. 2 is the Making programme figure of the connector of one embodiment of the invention.Fig. 3 A to Fig. 3 D is the schematic diagram of the manufacture method of the connector of Fig. 2.Please refer to Fig. 2 and Fig. 3 A to Fig. 3 D, in the present embodiment, the manufacture method of connector 100 comprises the following steps: in step s 110, provides base material 102.In the step s 120, on base material 102, form the multiple conducting terminals 110 being arranged in array.In step s 130, which, an insulating material ejection formation is formed insulating body 120, base material 102 and conducting terminal 110 to be fixed in insulating body 120.In step S140, be separated the array of conducting terminal, do not connect each other to make the conducting terminal 110 being arranged in array.In step S150, insulating body 120 is fixed on metal framework 130.The schematic diagram of the Making programme of the connector 100 of corresponding above-mentioned steps S110 to S150 is illustrated in Fig. 3 A to Fig. 3 D respectively.Below Fig. 2 and Fig. 3 A to Fig. 3 D that arranges in pairs or groups with word is sequentially illustrated the manufacture method of the connector 100 of the present embodiment.
First, please refer to Fig. 2 and Fig. 3 A, in step s 110, provide base material 102.In the present embodiment, base material 102 has conductivity and pliability, and its material is such as copper alloy.But in other embodiments, base material 102 can select suitable material, and the present invention is not as restriction.
Then, please refer to Fig. 2 and Fig. 3 B, in the step s 120, on base material 102, form the multiple conducting terminals 110 being arranged in array.In the present embodiment, each conducting terminal 110 has main paragraph 112 and two extension 114a and 114b.Main paragraph 112 is parallel to base material 102, and two extension 114a and 114b extend from same one end of main paragraph 112 toward the direction away from main paragraph 112, and the relative both sides separately toward base material 102 extend, the relative both sides of wherein said base material 102 are such as the both sides up and down (relative to Fig. 3 B for extending in and drawing outer toward drawing) of base material 102, and more clearly can understand this feature with reference to follow-up accompanying drawing (such as Fig. 3 C to Fig. 5) simultaneously.In figure 3b, the conducting terminal 110 being arranged in array is arranged in four rows, and often row has four conducting terminals 110 of equidistantly arrangement, but the present invention does not limit quantity and the arrangement mode of conducting terminal 110, and it can adjust according to demand.Moreover, in the present embodiment, the step forming conducting terminal 110 on base material 102 comprises punch forming (punching) manufacture craft, be removed in part thereof 102 punch forming manufacture craft wherein around each conducting terminal 110, to form the external form of conducting terminal 110 haply, and two extension 114a and the 114b extended from the same side of main paragraph 112 are by punching press and respectively towards relative two lateral bucklings of base material 102, and then protrude from outside base material 102.Now, the main paragraph 112 of each conducting terminal 110 is still connected to each other by residual base material 102.So, multiple conducting terminal 110 can be formed on base material 102 one-body moldedly.But in other embodiments, the step being formed conducting terminal 110 by base material 102 can be such as first remove the part thereof 102 around each conducting terminal 110 by etching (etching), then formed conducting terminal 110 by punch forming.Conducting terminal 110 of the present invention is not limited to above-mentioned production method, and it can select suitable manufacture craft according to demand.In addition, after being base material 102 is formed the step of conducting terminal 110, can also electroplate (plating) conducting terminal 110, to form protective layer (not shown) on conducting terminal 110 surface, but the present invention does not limit conducting terminal 110 whether electroplates.
Then, please refer to Fig. 2 and Fig. 3 C, in step s 130, which, insulating material ejection formation is formed insulating body 120, so that base material 102 and conducting terminal 110 are fixed in insulating body 120.Specifically, in the present embodiment, insulating material is such as plastic cement (plastic), but the present invention is not as restriction.Because this manufacture method forms conducting terminal 110 in the step s 120 on base material 102, wherein the main paragraph 112 of conducting terminal 110 is parallel to base material 102, and two extension 114a and 114b are towards the relative both sides extension of base material 102.Therefore, base material 102 is configured in the mould do not illustrated, and the insulating material of flowing is flowed in mould, while insulating material forms insulating body 120, base material 102 can be fixed in insulating body 120 with the conducting terminal 110 being connected base material 102.Base material 102 is parallel to insulating body 120 by the design of mould.So, the main paragraph 112 of each conducting terminal 110 can be fixed in insulating body 120 abreast, and two extension 114a and 114b to extend to separately insulating body 120 from main paragraph 112 and are positioned at the relative both sides of insulating body 120, the relative both sides of wherein said insulating body 120 are such as the both sides up and down of insulating body 120 (relative to Fig. 3 C for extending above accompanying drawing with below accompanying drawing).In addition, in the present embodiment, in the step of above-mentioned formation insulating body 120 (step S130), also comprise and form multiple opening 122 simultaneously on insulating body 120, be such as the shape of prior designing mould, while forming insulating body 120 to make insulating material, namely there is multiple opening 122.Opening 122 exposes conducting terminal 110 accordingly, and the opening 122 that wherein main paragraph 112 vicinity of each conducting terminal 110 is corresponding is also fixed in insulating body 120, and two extension 114a and 114b are respectively since the opening 122 of correspondence extends to outside insulating body 120.
Then, please continue to refer to Fig. 2 and Fig. 3 C, in step S140, be separated the array of conducting terminal 110, do not connect each other to make conducting terminal 110.In the present embodiment, at formation insulating body 120, and after base material 102 and conducting terminal 110 being fixed on the step in insulating body 120, the conducting terminal 110 be fixed in insulating body 120 is still connected to each other (as shown in Figure 3 B) by residual base material 102 simultaneously.In order to avoid each conducting terminal 110 interferes with each other when signal transmission, the array of conducting terminal 110 must be disconnected from each other.Therefore, after completing insulating body 120, by the mould do not illustrated, the junction being arranged in each conducting terminal 110 of array can be disconnected.So, each conducting terminal 110 can be made independent each other and do not connect.But, in abovementioned steps, first electroplate each conducting terminal 110, therefore two extension 114a and 114b of each conducting terminal 110 and main paragraph 112 electrically conduct each other.Accordingly, to extend to separately insulating body 120 from main paragraph 112 due to two extension 114a and 114b and be positioned at the relative both sides of insulating body 120, when connector 100 is configured on the wiring board (circuitboard) do not illustrated, connector 100 is by two extension 114a and/or 114b connection line plate (being such as the conductive connection pads on wiring board), or when connector 100 is configured in electronic installation (not illustrating), connector 100 connects other external device (ED)s by two extension 114a and/or 114b.Now, connector 100 is by conducting terminal 110 transmission of signal.
Finally, please refer to Fig. 2 and Fig. 3 D, in step S150, insulating body 120 is fixed on metal framework 130.In the present embodiment, when step S140 completes, in fact roughly complete connector 100 of the present invention.But the connector 100 optionally configured metal framework 130 of the present embodiment, to strengthen the mechanical strength of connector 100.Specifically, in the present embodiment, insulating body 120 has two first snap-in structures 124, be positioned at the opposite end of insulating body 120, and metal framework 130 has two second snap-in structures 132, be positioned at the opposite end of metal framework 130, and correspond to the first snap-in structure 124.Therefore, insulating body 120 is being fixed in the step on metal framework 130 (step S150), is also comprising and insulating body 120 is interfered with each other by the first snap-in structure 124 and the second snap-in structure 132 and is fixed on metal framework 130.Wherein, the first snap-in structure 124 is such as draw-in groove, and the second snap-in structure 132 is such as projection, therefore both can work in coordination and produce interference.So, the connector 100 being configured with metal framework 130 has good mechanical strength.But in the embodiment that other do not illustrate, the first snap-in structure of connector and the quantity of the second snap-in structure, position and type can adjust according to demand, and connector also can omit configured metal framework, and the present invention is not limited to above-mentioned execution mode.
Fig. 4 is the close-up schematic view of the connector of one embodiment of the invention.Fig. 5 is the enlarged fragmentary cross section of the connector of Fig. 4.Please refer to Fig. 3 D, Fig. 4 and Fig. 5, in the present embodiment, the connector 100 completed via aforesaid manufacture method comprises base material 102(and is illustrated in Fig. 3 A and Fig. 3 B), multiple conducting terminal 110 and insulating body 120.The one-body molded status of conducting terminal 110 is on base material 102, and conducting terminal 110 is arranged in array and does not connect each other.In other words, in the connector 100 by completing made by abovementioned steps, base material 102 and conducting terminal 110 are fixed in insulating body 120.Now, conducting terminal 110 is separated from one another, but is just fixed in insulating body 120 when conducting terminal 110 is still connected to each other due to base material 102, therefore the defective material of base material 102 left after being separated the array of conducting terminal 110 still can in insulating body 120.In addition, each conducting terminal 110 has main paragraph 112 and two extension 114a and 114b, main paragraph 112 is fixed in insulating body 120 abreast, and two extension 114a and 114b extend from same one end of main paragraph 112 toward the direction away from main paragraph 112, and extend to the relative both sides being positioned at insulating body 120 outside insulating body 120 separately, be such as the both sides up and down of the insulating body 120 shown in Fig. 5.Furthermore, in the present embodiment, insulating body 120 has multiple opening 122.Opening 122 exposes conducting terminal 110 accordingly.The main paragraph 112 of each conducting terminal 110 is close to corresponding opening 122 and is fixed in insulating body 120, and two extension 114a and 114b are respectively since the opening 122 of correspondence extends to outside insulating body 120, in order to connect the wiring board or other external device (ED)s transmission of signal that do not illustrate in subsequent applications.
In addition, in the present embodiment, connector 100 is also optionally configured with metal framework 130(and is illustrated in Fig. 3 D).Insulating body 120 is fixed on metal framework 130, to strengthen the mechanical strength of connector 100.About the configuration relation of insulating body 120 and metal framework 130 is as aforementioned explanation, do not add to repeat at this.Wherein, first snap-in structure 124 and the second snap-in structure 132 make insulating body 120 be fixed on metal framework 130 by interfering, and the first snap-in structure 124 is suitable for moving relative to the second snap-in structure 132, to adjust the distance between insulating body 120 and metal framework 130.So, insulating body 120 can not only be fixed on metal framework 130 and increase the mechanical strength of connector 100 by the first snap-in structure 124 and the second snap-in structure 132, the evenness that the extension 114b that can also improve each conducting terminal 110 by adjustment insulating body 120 and the relative distance of metal framework 130 contacts with metal framework 130, to improve the welding effect of conducting terminal 110 in subsequent applications of connector 100.
On the other hand, please refer to Fig. 5, in the present embodiment, because the main paragraph 112 of each conducting terminal 110 is fixed in insulating body 120 by above-mentioned production method abreast, therefore in fact the bearing of trend D of the main paragraph 112 of each conducting terminal 110 is parallel to the length direction L of insulating body 120.Moreover the distance d1 between two extension 114a and 114b of each conducting terminal 110 of the present embodiment is less than two extension 114a and is denoted as the distance of extension 114a relative to main paragraph 112 relative in distance d2(Fig. 5 of main paragraph 112).In other words, distance d1 between two extension 114a and 114b can be considered it is the height of conducting terminal 110, and two extension 114a can be considered it is the length of conducting terminal 110 relative to the distance d2 of main paragraph 112, and the height of conducting terminal 110 is less than the length of conducting terminal 110.So, because the main paragraph 112 of conducting terminal 110 is fixed in insulating body 120 by the present embodiment abreast, and two extension 114a and 114b are exposed to outside insulating body 120, therefore the thickness t of insulating body 120 can be reduced to the height (distance d1) being less than conducting terminal 110.Even if insulating body 120 needs the major part of coated with conductive terminal 110 and only expose the local of two extension 114a and 114b, the thickness t of insulating body 120 also only needs to be configured to the height (distance d1) close to conducting terminal 110.Vertically insulating body is inserted compared to by conducting terminal, and make the thickness of insulating body need close to the technology of the length of conducting terminal, the production method of the present embodiment effectively can reduce the thickness t that insulating body 120 is used for needed for coated with conductive terminal 110, to reduce the integral thickness of connector 100.In addition, the connector 100 due to the present embodiment utilizes ejection formation manufacture craft to be fixed in insulating body 120 by conducting terminal 110 while formation insulating body 120, therefore conducting terminal 110 is not easily separated with insulating body 120.Accordingly, the manufacture method of the connector 100 of the present embodiment can reduce the integral thickness of connector 100, and improves the reliability of connector 100, and makes connector 100 have thin design and good reliability.
In sum, the base material forming conducting terminal is fixed in insulating body by connector of the present invention and its manufacture method while insulating material ejection formation is formed insulating body.So, step conducting terminal being fixed on insulating body performs in same manufacture craft with the step forming insulating body, the main paragraph of each conducting terminal can be made to be fixed on abreast in insulating body, wherein the bearing of trend of conducting terminal is parallel to the length direction of insulating body, and the height of conducting terminal is less than the length of conducting terminal.Therefore, the thickness of the insulating body of coated with conductive terminal only needs the height equaling conducting terminal haply.So, the present invention effectively can reduce the thickness that insulating body is used for needed for coated with conductive terminal, and conducting terminal and insulating body are not easily separated.Accordingly, the manufacture method of connector of the present invention can reduce the integral thickness of connector, and improves the reliability of connector, and makes connector have thin design and good reliability.
Although disclose the present invention in conjunction with above embodiment; but itself and be not used to limit the present invention; this operator is familiar with in any art; without departing from the spirit and scope of the present invention; a little change and retouching can be done, therefore being as the criterion of should defining with the claim of enclosing of protection scope of the present invention.
Claims (13)
1. a manufacture method for connector, is characterized in that, comprising:
Base material is provided;
On this base material, form the multiple conducting terminals being arranged in array, wherein respectively this conducting terminal has main paragraph and two extensions, and this two extension extends from same one end of this main paragraph toward the direction away from this main paragraph;
Insulating material ejection formation is formed insulating body, so that this base material and those conducting terminals are fixed in this insulating body, wherein respectively this main paragraph of this conducting terminal is fixed in this insulating body abreast, and this two extension to extend to separately this insulating body from this main paragraph and is positioned at the relative both sides of this insulating body; And
Be separated the array of those conducting terminals, do not connect each other to make those conducting terminals.
2. the manufacture method of connector as claimed in claim 1, it is characterized in that, the step forming those conducting terminals on this base material comprises punch forming or etching process.
3. the manufacture method of connector as claimed in claim 1, is characterized in that, also comprise:
After being this base material is formed the step of those conducting terminals, electro-cladding is on those conducting terminals.
4. the manufacture method of connector as claimed in claim 1, is characterized in that, also comprise:
After the step of array being separated those conducting terminals, this insulating body is fixed on metal framework.
5. the manufacture method of connector as claimed in claim 4, it is characterized in that, this insulating body has at least one first snap-in structure, be positioned at one end of this insulating body, and this metal framework has at least one second snap-in structure, be positioned at one end of this metal framework and correspond to this first snap-in structure, this insulating body is being fixed in the step on this metal framework, is also comprising and this insulating body is interfered with each other by this first snap-in structure and this second snap-in structure and is fixed on this metal framework.
6. the manufacture method of connector as claimed in claim 1, it is characterized in that, in the step forming this insulating body, also comprise being formed multiplely is opened on this insulating body simultaneously, those openings expose those conducting terminals accordingly, this opening that respectively this main paragraph vicinity of this conducting terminal is corresponding is also fixed in this insulating body, and this two extension is respectively since this opening of correspondence extends to outside this insulating body.
7. a connector, is characterized in that, comprising:
Base material;
Insulating body; And
Multiple conducting terminal, one-body molded status on the substrate, those conducting terminals are arranged in array and do not connect each other, wherein respectively this conducting terminal has main paragraph and two extensions, this main paragraph is fixed in this insulating body abreast, and this two extension extends from same one end of this main paragraph toward the direction away from this main paragraph, and extend to the relative both sides being positioned at this insulating body outside this insulating body separately.
8. connector as claimed in claim 7, is characterized in that, also comprise:
Metal framework, this insulating body is fixed on this metal framework.
9. connector as claimed in claim 8, it is characterized in that, this insulating body has at least one first snap-in structure, be positioned at one end of this insulating body, and this metal framework has at least one second snap-in structure, be positioned at one end of this metal framework and correspond to this first snap-in structure, this insulating body is interfered with each other by this first snap-in structure and this second snap-in structure and is fixed on this metal framework.
10. connector as claimed in claim 9, it is characterized in that, this first snap-in structure comprises draw-in groove, and this second snap-in structure comprises projection.
11. connectors as claimed in claim 9, is characterized in that, this first snap-in structure is suitable for moving relative to this second snap-in structure, to adjust the distance between this insulating body and this metal framework.
12. connectors as claimed in claim 7, it is characterized in that, this insulating body has multiple opening, those openings expose those conducting terminals accordingly, this opening that respectively this main paragraph vicinity of this conducting terminal is corresponding is also fixed in this insulating body, and this two extension is respectively since this opening of correspondence extends to outside this insulating body.
13. connectors as claimed in claim 7, is characterized in that, the distance between this two extension of each this conducting terminal is less than the distance of this two extension relative to this main paragraph.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310717166.0A CN104733976A (en) | 2013-12-23 | 2013-12-23 | Connector and manufacturing method thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310717166.0A CN104733976A (en) | 2013-12-23 | 2013-12-23 | Connector and manufacturing method thereof |
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| Publication Number | Publication Date |
|---|---|
| CN104733976A true CN104733976A (en) | 2015-06-24 |
Family
ID=53457586
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201310717166.0A Pending CN104733976A (en) | 2013-12-23 | 2013-12-23 | Connector and manufacturing method thereof |
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| CN1545169A (en) * | 2003-11-17 | 2004-11-10 | 汪应斌 | Method for making electric connector and products thereof |
| US7025601B2 (en) * | 2004-03-19 | 2006-04-11 | Neoconix, Inc. | Interposer and method for making same |
| CN1988292A (en) * | 2006-11-23 | 2007-06-27 | 番禺得意精密电子工业有限公司 | Method for producing electric connector |
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- 2013-12-23 CN CN201310717166.0A patent/CN104733976A/en active Pending
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5344334A (en) * | 1993-06-11 | 1994-09-06 | The Whitaker Corporation | Hinged cover for an electrical socket |
| TW423186B (en) * | 1997-09-24 | 2001-02-21 | Teledyne Ind | Multi-pin connector |
| CN1285634A (en) * | 1999-08-18 | 2001-02-28 | 富士康(昆山)电脑接插件有限公司 | Method for making electric connector and products thereof |
| CN1414666A (en) * | 2001-10-24 | 2003-04-30 | 富士康(昆山)电脑接插件有限公司 | Spherical grid array plug socket connector |
| CN1545169A (en) * | 2003-11-17 | 2004-11-10 | 汪应斌 | Method for making electric connector and products thereof |
| US7025601B2 (en) * | 2004-03-19 | 2006-04-11 | Neoconix, Inc. | Interposer and method for making same |
| CN1988292A (en) * | 2006-11-23 | 2007-06-27 | 番禺得意精密电子工业有限公司 | Method for producing electric connector |
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Application publication date: 20150624 |