CN102064398B - Splint-type connector module - Google Patents

Abstract

The invention provides a splint-type connector module. The splint-type connector module comprises a circuit board and a connector, wherein a pad area and a non-pad area are arranged at the two opposite sides of the board; the non-pad area is closer to a board edge relative to the pad area; welding fluxes are arranged on the pad area; the connector comprises an insulating body and at least two conductive terminals; a butt groove is arranged at one side of the insulating body in a concave manner and an assembly portion is arranged at the other side of the insulating body; the conductive terminals are distributed at the two opposite sides of the butt groove and are respectively provided with a contact portion exposed out of the butt groove and a pushing portion penetrating through the assembly portion and pushing against the non-pad area; the pushing portions are respectively provided with a welding segment which is connected with the welding flux on the pad area so that the welding segment is connected with the corresponding pad area in a conductive manner; and the welding segments and the corresponding pad area are separated by the welding fluxes so as to form gaps. The splint-type connector module has the beneficial effects of preventing empty welding and the adjacent welding fluxes from being bonded.

Description

Splint-type connector module

[technical field]

The present invention relates to a kind of splint-type connector module, espespecially a kind of splint-type connector module of avoiding empty weldering and adjacent scolder to link.

[background technology]

Referring to Fig. 1, is a kind of existing splint-type connector module, is electrically connected an electronic cards a, and it comprises a circuit board b, and a connector.

Described circuit board b is provided with a plurality of welded gasket b1, is laid with tin cream b2 described in each on welded gasket b1.

Described connector comprises an insulating body c, and one side is concaved with a docking groove c1, and opposite side is concaved with a c2 of department of assembly, and is located in a plurality of conducting terminal d in described insulating body c.

Described conducting terminal d is distributed in the two opposite sides of described docking groove c1, be divided into row's conducting terminal and lower row's conducting terminal, described in each conducting terminal d comprise a contact site d1 and described electronic cards a in electrical contact, one holding parts d2 extends described conducting terminal d is immobilizated in described insulating body c from described contact site d1, and a welding ends d3 extends and passes the described c2 of department of assembly from described holding parts d2.

Described in each, the described welding ends d3 of conducting terminal d comprises one first bending section d31, one second bending section d32, and a conflict welding section d33 connects described the first bending section d31 and described the second bending section d32.The bending direction of described the first bending section d31 and described the second bending section d32 is contrary, and described the first bending section d31 bends towards described circuit board b, and described the second bending section d32 bends away from described circuit board b.

And, for the situation of avoiding described conducting terminal d to cause the described conflict welding section d33 of the described conducting terminal d of part to contact with the described tin cream b2 on described welded gasket b1 because of foozle, the described conflict welding section d33 of described upper row's conducting terminal and described lower row's conducting terminal is less than the thickness of described circuit board b in the spacing perpendicular to described circuit board b direction.

So, described welded gasket b1 on described circuit board b arrives described conflict welding section d33 position and finally realizes in the process coordinating with described connector to described circuit board b, described conflict welding section d33 can be all the time along the swipe described tin cream b2 of the upper coating of described welded gasket b1 of the opposite direction of described circuit board b direction of insertion.This will cause occurring two kinds of adverse consequencess:

If a described conflict welding section d33 is very large to the scraping power of described tin cream b2, so, the described tin cream b2 on described welded gasket b1 will be scraped, and after described connector enters a reflow stove heating welding, occurs empty weldering phenomenon;

Two, due to the promotion of described conflict weld part d33 to described tin cream b2, the both sides or the described conflict welding section d33 that cause described tin cream b2 at the described welded gasket b1 of correspondence are piled up near the position of described the second bending section d32, at described connector, enter in a reflow stove heating process, the upper described tin cream b2 fusing of laying of adjacent described welded gasket b1 is flowed and is connected together, the scolder of the cooling formation of described tin cream b2 of fusing also will link together, adjacent described welded gasket b1 will be electrically connected via the described scolder connecting together, and form short circuit.

Therefore be necessary to design a kind of new splint-type connector module, overcome above-mentioned defect.

[summary of the invention]

The object of the present invention is to provide a kind of splint-type connector module of avoiding empty weldering and adjacent scolder to link.

In order to achieve the above object, splint-type connector module of the present invention comprises: a circuit board, in relative biside plate face, be respectively equipped with a weld pad region, and described in each, a plate edge of described circuit board is closed in weld pad region, in described weld pad region, be provided with scolder, and described circuit board biside plate face is respectively equipped with a non-weld pad region, relatively described weld pad region, described non-weld pad region approaches described plate edge, a connector, is positioned at the plate edge of described circuit board, and it has an insulating body and is located at least two conducting terminals in described insulating body, described insulating body is in order to fix described in each conducting terminal in wherein, and described insulating body one side has the plate edge of the corresponding described circuit board in a department of assembly, and described insulating body opposite side is concaved with a docking groove, described in each, conducting terminal is distributed in the described docking groove two opposite sides in described insulating body, and described in each, conducting terminal has respectively a contact site and is revealed in described docking groove, described in each, conducting terminal all extends the described department of assembly that an abutting part passes described insulating body again, and the described non-weld pad region of circuit board biside plate face described in difference butt, from abutting part described in each, be provided with respectively a welding section and connect the described scolder on described weld pad region, described welding section is connected with corresponding described weld pad region formation, and described welding section is situated between every forming a gap via described scolder with corresponding described weld pad is interregional.

Compared with prior art, in splint-type connector module of the present invention, described abutting part contacts at described non-weld pad region, the interregional formation of described welding section and described weld pad one gap, described scolder is located in described gap, described welding section is conducted by described scolder and described weld pad region, so can avoid empty weldering and adjacent described scolder to link phenomenon.

[accompanying drawing explanation]

Fig. 1 is the partial cutaway schematic of existing splint-type connector module and electronic cards;

Fig. 2 is the perspective exploded view of splint-type connector module of the present invention and electronic cards;

Fig. 3 is the front view of circuit board shown in Fig. 2;

Fig. 4 is that in first embodiment of the invention, circuit board does not insert the schematic diagram on connector;

Fig. 5 is that in first embodiment of the invention, circuit board inserts the schematic diagram on connector;

Fig. 6 is the generalized section of second embodiment of the invention connector;

Fig. 7 is that in third embodiment of the invention, circuit board does not insert the schematic diagram on connector;

Fig. 8 is that in third embodiment of the invention, circuit board inserts the schematic diagram on connector;

Fig. 9 is that in fourth embodiment of the invention, circuit board does not insert the schematic diagram on connector;

Figure 10 is that in fourth embodiment of the invention, circuit board inserts the schematic diagram on connector.

Background technology label declaration

Electronic cards a

Circuit board b

Welded gasket b1 tin cream b2

Insulating body c

The docking groove c1 c2 of department of assembly

Conducting terminal d

Contact site d1 holding parts d2 welding ends d3

First bending section d31 the second bending section d32 conflict welding section d33

This creation label declaration

Electronic cards 1

Circuit board 2

Plate face 21 plate edge 22 two ends 23

Weld pad region 24 welded gasket 240 tin creams 25

Non-weld pad region 26 through hole 27 guide vane end stops 28

Scolder 29

Insulating body 3

31 retaining groove 311 locking parts 312, department of assembly

Docking groove 32 terminal channels 33

Conducting terminal 4

Contact site 41 holding parts 42 abutting parts 43

Bridge joint sections 431 welding section 432 scraper plate sections 433

Auxiliary clamping part 434 insert ports 44

Securing member 5

[embodiment]

Below in conjunction with the drawings and specific embodiments, splint-type connector module of the present invention is described further.

Referring to Fig. 2, is first embodiment of the invention, and splint-type connector module of the present invention is electrically connected an electronic cards 1, and it comprises a circuit board 2, and a connector.

Refer to Fig. 2 and Fig. 3, described circuit board 2 has relative biside plate face 21, connects a plate edge 22 of plate face 21 described in two and the opposite end 23 of corresponding described plate edge 22.Wherein, described in each, plate face 21 is provided with a weld pad region 24 and closes on described plate edge 22, in weld pad region 24 described in each, be provided with at least one welded gasket 240 (can certainly have two or more described in welded gasket 240), its layout in a row (certainly, described welded gasket 240 also can be staggered on the described weld pad region 24 of correspondence).Described in each, plate face 21 is also provided with a non-weld pad region 26, and 26 relatively described weld pad regions 24, described non-weld pad region approach described plate edge 22.Described two ends 23 are respectively equipped with a through hole 27, and described two ends 23 are extended with forward respectively a guide vane end stop 28.

Described connector comprises an insulating body 3, is fixedly arranged at least two conducting terminals 4 in described insulating body 3 (certainly, described conducting terminal 4 can have three, or more than three), and two securing members 5.

Described insulating body 3 is a lengthwise body, its relative both sides are arranged with respectively a department of assembly 31 and a docking groove 32 is pegged graft for described electronic cards 1, described insulating body 3 is also provided with the two opposite sides that a plurality of terminal channels 33 are positioned at described docking groove 32, and be connected with described docking groove 32, to accommodate described conducting terminal 4.Described insulating body 3 is respectively equipped with a retaining groove 311 in the two ends of described department of assembly 31, it is open towards described circuit board 2, and a locking part 312, described locking part 312 and the adjacent setting of described retaining groove 311.

Refer to Fig. 2 to Fig. 5, described in each, conducting terminal 4 correspondences are installed in described terminal channel 33, be divided into row's conducting terminal and lower row's conducting terminal, described in each, to comprise that a contact site 41 is revealed in described docking groove 32 in electrical contact with described electronic cards 1 for conducting terminal 4, one holding parts 42 extends and coordinates with described insulating body 3 fixings from described contact site 41, and an abutting part 43 extends and passes described department of assembly 31 from described holding parts 42.

Described abutting part 43 comprises that a bridge joint sections 431 is connected to described holding parts 42, one welding section 432 inwardly bends towards described department of assembly 31 and tilts to extend from described bridge joint sections 431, and one scraper plate section 433 from described welding section 432, continue to tilt to extend, the bending relative to the described welding section 432 of described lower row's conducting terminal of the described welding section 432 of described upper row's conducting terminal, in wherein forming an insert port 44, described insert port 44 is dwindled gradually towards described insulating body 3.

The engagement process of described connector and described circuit board 2 is as follows:

First described in providing one, circuit board 2, and lay tin cream 25 on welded gasket 240 described in each of described circuit board 2;

Then the described circuit board 2 that is laid with described tin cream 25 is inserted to described insert port 44, the angle α that imaginary line stretcher L by described scraper plate section 433 and described welding section 432 and described plate face are 21 is 9～19 degree, towards described insulating body 3, promote described circuit board 2, the described plate edge 22 of described circuit board 2 slides onto described scraper plate section 433 along described welding section 432, continuation promotes described circuit board 2 towards described insulating body 3, the described plate edge 22 of described circuit board 2 is crossed described scraper plate section 433, described non-weld pad region 26 start to conflict described scraper plate section 433 its slippage one distance relatively, until described guide vane end stop 28 is resisted against the bottom of described retaining groove 311, now, the described non-weld pad region 26 of the paired described circuit board 2 of described scraper plate section 433 clamping, and because the relative described plate face 21 of the imaginary line stretcher L by described scraper plate section 433 and described welding section 432 tilts, and the relatively described welding section 432 of described scraper plate section 433 is near described plate edge 22, , described welding section 432 will and 240 of described welded gaskets there is a gap to hold described tin cream 25, described welding section 432 contacts with described tin cream 25,

Described securing member 5 through described locking part 312 and described through hole 27 be fixed on described circuit board 2 described insulating body 3 on thereafter;

Finally, the described connector fitting together and described circuit board 2 are inserted to a reflow stove, tin cream 25 described in heat fused, the cooling rear formation scolder 29 of described tin cream 25 of fusing, described connector and described circuit board 2 weld together by described scolder 29.

Referring to Fig. 6, is the second embodiment of the present invention, and the difference of itself and the first embodiment is: described scraper plate section 433 with respect to described welding section 432 to described circuit board 2 skews.But air defense weldering is identical with the first embodiment with the realization of anti-adjacent described welded gasket 240 short circuit effects, again repeats no more.

Refer to Fig. 7, for the third embodiment of the present invention, the difference of itself and the first embodiment is mainly the structure of the described abutting part 43 of described conducting terminal 4, in the present embodiment, described abutting part 43 comprises that a bridge joint sections 431 is connected to described holding parts 42, one scraper plate section 433 after described bridge joint sections 431 is inwardly extended segment distances towards 31 bendings of described department of assembly again inflection extend to form, and one welding section 432 from described scraper plate section 433, away from described department of assembly 31, tilt to extend, imaginary line stretcher L by described welding section 432 and described scraper plate section 433 is skewed, spacing between the described scraper plate section 433 of described upper row's conducting terminal and the described scraper plate section 433 of described lower row's conducting terminal is less than the spacing between corresponding described welding section 432.43 of the described abutting part 43 of described upper row's conducting terminal and the described abutting parts of described lower row's conducting terminal form an insert port 44.

The engagement process of described connector and described circuit board 2 is as follows:

First described in providing one, circuit board 2, and lay described tin cream 25 on welded gasket 240 described in each of described circuit board 2;

Then the described circuit board 2 that is laid with described tin cream 25 is inserted to described insert port 44, and promote described circuit board 2 towards described insulating body 3, the described plate edge 22 of described circuit board 2 slides into described scraper plate section 433 along described welding section 432, continuation promotes described circuit board 2 towards described insulating body 3, the described plate edge 22 of described circuit board 2 is crossed described scraper plate section 433, described non-weld pad region 26 start to conflict described scraper plate section 433 its slippage one distance relatively, until described guide vane end stop 28 is resisted against the bottom of described retaining groove 311, now, the described non-weld pad region 26 of the paired described circuit board 2 of described scraper plate section 433 clamping, and because the relative described plate face 21 of the imaginary line stretcher L by described scraper plate section 433 and described welding section 432 tilts, the relatively described welding section 432 of described scraper plate section 433 approaches described plate edge 22, , described welding section 432 will and described welded gasket 240 between there is a gap and hold described tin cream 25, described welding section 432 contacts with described tin cream 25,

Described securing member 5 through described locking part 312 and described through hole 27 be fixed on described circuit board 2 described insulating body 3 on thereafter;

Finally, the described connector fitting together and described circuit board 2 are inserted to a reflow stove, described in heat fused, tin cream 25, the described scolder 29 of the cooling rear formation of described tin cream 25 of fusing, and described connector and described circuit board 2 weld together by described scolder 29.

In the present embodiment, substantially the same with the first embodiment of air defense weldering and the realization of anti-adjacent described welded gasket 240 short circuits, does not repeat them here.

In the 3rd embodiment, the end of described welding section 432 also extends an auxiliary clamping part 434 is set, after described circuit board 2 and described connector are pegged graft and are coordinated, described auxiliary clamping part 434 is assisted the described circuit board 2 of described scraper plate section 433 clamping, further prevents that described circuit board 2 from exiting in described connector.

Refer to Fig. 8, for fourth embodiment of the invention, the main distinction of itself and the first embodiment is still described abutting part 43 structures, in the present embodiment, described abutting part 43 comprise one described in bridge joint sections 431 be connected to described holding parts 42, described in one, scraper plate section 433 inwardly tilts to extend towards described department of assembly 31 from described bridge joint sections 431, described in one, welding section 432 extends from described bridge joint sections 431 bendings, and described scraper plate section 433 is contrary with described welding section 432 bearing of trends, the imaginary line stretcher L by described welding section 432 and described scraper plate section 433 is skewed.The described abutting part 43 of described upper row's conducting terminal and the described abutting part 43 of described lower row's conducting terminal are oppositely arranged, and insert port 44 described in therebetween forming.

The engagement process of described connector and described circuit board 2 is as follows:

First described in providing one, circuit board 2, and lay described tin cream 25 on welded gasket 240 described in each of described circuit board 2;

Then the described circuit board 2 that is laid with described tin cream 25 is inserted to described insert port 44, the angle α that imaginary line stretcher L by described scraper plate section 433 and described welding section 432 and described plate face are 21 is 9～19 degree, and the described plate edge 22 of described circuit board 2 slides onto described scraper plate section 433 along described welding section 432, continuation promotes described circuit board 2 towards described insulating body 3, the described plate edge 22 of described circuit board 2 is crossed described scraper plate section 433, described non-weld pad region 26 start to conflict described scraper plate section 433 its slippage one distance relatively, until described guide vane end stop 28 is resisted against the bottom of described retaining groove 311, now, the described non-weld pad region 26 of the paired described circuit board 2 of described scraper plate section 433 clamping, and because the relative described plate face 21 of the imaginary line stretcher L by described scraper plate section 433 and described welding section 432 tilts, the relatively described welding section 432 of described scraper plate section 433 approaches described plate edge 22, , described welding section 432 will and described welded gasket 240 between there is a gap and hold described tin cream 25, described welding section 432 contacts with described tin cream 25,

Described securing member 5 through described locking part 312 and described through hole 27 be fixed on described circuit board 2 described insulating body 3 on thereafter;

Finally, the described connector fitting together and described circuit board 2 are inserted to a reflow stove, described in heat fused, tin cream 25, the described scolder 29 of the cooling rear formation of described tin cream 25 of fusing, and described connector and described circuit board 2 weld together by described scolder 29.

In the present embodiment, substantially the same with the first embodiment of air defense weldering and the realization of anti-adjacent described welded gasket 240 short circuits, does not repeat them here.

From foregoing description, can find out, the present invention has these features: first, and by relative described plate face 21 inclinations of imaginary line stretcher L of described scraper plate section 433 and described welding section 432; Secondly, the relatively described welding section 432 of described scraper plate section 433 approaches described plate edge 22; Again, the functional independence of described scraper plate section 433 and described welding section 432, described scraper plate section 433 scraping described non-weld pad regions 26, and finally realize and coordinate the rear paired described circuit board 2 of the relative clamping of described scraper plate section 433 in described circuit board 2 and described connector, and described welding section 432 and 24, described weld pad region have a gap, contact is laid in the described tin cream 25 on described weld pad region 24, by described scolder 29 and the described welded gasket 240 of the described tin cream 25 cooling formation after fusing, realizes conducting; Finally, 433 distances that are less than 432 of corresponding described welding sections in the distance perpendicular to described plate face 21 directions of the described scraper plate section 433 of described upper row's conducting terminal and the described scraper plate section of described lower row's conducting terminal;

In sum, the present invention has following beneficial effect:

1. in the present invention, because the relative described plate face 21 of the imaginary line stretcher L by described welding section 432 and described scraper plate section 433 has an angle, and the relatively described welding section 432 of described scraper plate section 433 approaches described plate edge 22, when described scraper plate section 433 contacts on the described non-weld pad region 26 of described circuit board 2, between the described weld pad region 24 of described welding section 432 and described circuit board 2, form a gap and hold described tin cream 25, at described tin cream 25, melt again after the described scolder 29 of cooling formation, described gap holds described scolder 29, existence because of described gap, the described tin cream 25 that described welding section 432 can not swiped and be laid on described welded gasket 420, just can not cause the phenomenon of empty weldering and adjacent described welded gasket 420 short circuits yet,

2. the end due to described welding section 432 continues to be extended with described auxiliary clamping part 434, assists the described circuit board 2 of described scraper plate section 433 clamping, strengthens the clamping effect of described circuit board 2 and described connector.

Above-mentioned explanation is the detailed description for the better possible embodiments of the present invention, but embodiment is not in order to limit patent claim of the present invention, the equal variation completing under all disclosed technical spirits or modification change, all should belong to the scope of the claims that the present invention is contained.

Claims (10)

1. a splint-type connector module, is characterized in that, comprising:

One circuit board, in relative biside plate face, be respectively equipped with a weld pad region, and described in each, a plate edge of described circuit board is closed in weld pad region, in described weld pad region, be provided with scolder, and plate face is respectively equipped with a non-weld pad region described in each, relatively described weld pad region, described non-weld pad region approaches described plate edge;

A connector, is positioned at the described plate edge of described circuit board, at least two conducting terminals that it has an insulating body and is provided with in described insulating body;

Described insulating body is in order to fix described in each conducting terminal in wherein, and described insulating body one side has the described plate edge of the corresponding described circuit board in a department of assembly, and described insulating body opposite side is concaved with a docking groove;

Described in each, conducting terminal is distributed in the described docking groove two opposite sides in described insulating body, and described in each, conducting terminal has respectively a contact site and is revealed in described docking groove, described in each, conducting terminal all extends the described department of assembly that an abutting part passes described insulating body again, and the described non-weld pad region of plate face described in two of circuit board described in difference butt, from abutting part described in each, be provided with respectively a welding section and connect the described scolder on described weld pad region, described welding section is connected with corresponding described weld pad region formation, and described welding section is situated between every forming a gap via described scolder with corresponding described weld pad is interregional.

2. splint-type connector module as claimed in claim 1, is characterized in that: described abutting part is provided with a scraper plate section, and it is against described non-weld pad region, and the relatively described welding section of described scraper plate section approaches described plate edge.

3. splint-type connector module as claimed in claim 2, is characterized in that: an imaginary line stretcher and the angle between described plate face by described scraper plate section and described welding section are 9～19 degree.

4. splint-type connector module as claimed in claim 2, is characterized in that: described scraper plate section extends to form towards described department of assembly from described welding section.

5. splint-type connector module as claimed in claim 2, is characterized in that: described welding section extends to form away from described department of assembly from described scraper plate section.

6. splint-type connector module as claimed in claim 1, is characterized in that: the further extension of described welding section is provided with an auxiliary clamping part and supports described plate face, and the relatively described welding section of described auxiliary clamping part is away from described plate edge.

7. splint-type connector module as claimed in claim 1, is characterized in that: described in each, weld pad region is provided with a plurality of welded gaskets, and it is staggered that described welding is padded on described weld pad region.

8. splint-type connector module as claimed in claim 1, it is characterized in that: described insulating body is respectively equipped with a retaining groove in two ends, described department of assembly, it is open towards described circuit board, the two ends of the corresponding described plate edge of described circuit board are extended with a guide vane end stop towards described insulating body respectively, the bottom that it enters described retaining groove and supports described retaining groove.

9. splint-type connector module as claimed in claim 1, it is characterized in that: described insulating body is respectively equipped with a locking part in two ends, described department of assembly, the two ends of the corresponding described plate edge of described circuit board are respectively equipped with a through hole, described connector also comprises two securing members, and it is corresponding respectively locks described circuit board on described insulating body through described locking part and described through hole.

10. splint-type connector module as claimed in claim 1, is characterized in that: described department of assembly is recessed to form and accommodates the described plate edge of described circuit board in described insulating body.

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