CN203813099U - Electronic card connector - Google Patents

Abstract

The utility model relates to an electronic card connector, it contains an insulator, a shielding shell, a plurality of conductive terminal and a plurality of metal bearing component. The insulating body is provided with a plurality of terminal accommodating grooves which penetrate through the insulating body up and down. Each terminal accommodating groove comprises a first side and a second side which are opposite. The shielding shell is arranged above the insulating body. Each conductive terminal comprises a fixed part, a first elastic part extending from the fixed part, a welding part extending downwards from the fixed part, a contact part extending from the tail end of the first elastic part, and a second elastic part extending from the contact part. The fixing part of each conductive terminal is fixed on the first side of the corresponding terminal accommodating groove. Each metal supporting element is embedded and fixed at the second side of the corresponding terminal accommodating groove, wherein each metal supporting element extends below the tail end of the second elastic part of the corresponding conductive terminal.

Description

Electronic card coupler

Technical field

The utility model relates to a kind of electronic card coupler.

Background technology

Notification number is that 431655 TaiWan, China patent discloses a kind of connector, and it comprises insulation shell and multiple contact terminal.The leading flank indent of insulation shell forms slot.There is the wall that leans on terminal groove slot top elongation moulding, and wherein each terminal groove is used for by an accommodating location of contact terminal wherein.

Each contact terminal is formed with the first elastic arm of the bending that has a down dip, and and then extends to form contact site and the reflexed end upwards of protrusion.In the time that connector is accepted a complementary abutment element and pegged graft, contact site, by reaching in electrical contactly with the corresponding conducting strip in complementary abutment element, and is subject to pushing tow and displacement.Contact terminal comprises the second elastic arm, and the second elastic arm is to form by the end of the first elastic arm is extended to lengthen towards the terminal groove cell wall direction by wall.Movable distance between the end points of the second elastic arm and cell wall is less than the distance of contact site institute's energy actual displacement after complementary abutment element is inserted, so in the time that complementary abutment element is inserted, the end points energy contact cell wall of the second elastic arm and produce another for making the elastic resistance of contact site close contact conducting strip.

Above-mentioned contact terminal is to utilize its second elastic arm and the cell wall phase contact on insulation shell to produce another elastic resistance.In the long-term use procedure of connector, it is slotting that plastic cement cell wall can be subject to scraping of contact terminal, makes plastic cement cell wall easily impaired recessed, thereby cause another elastic resistance more and more less, finally becomes inefficacy.

Utility model content

According to the problems referred to above, the purpose of this utility model is to propose accordingly a kind of new electronic card coupler.

In order to achieve the above object, the utility model provides a kind of electronic card coupler, and it comprises an insulating body, a shield shell, multiple conducting terminal and multiple metal support element.Insulating body is provided with the upper and lower multiple terminal containing slots that run through.Each terminal containing slot comprises one first relative side and one second side.Shield shell is installed in the top of insulating body.Shield shell and insulating body define an electronic cards host cavity.Each conducting terminal comprises a fixed part, from fixed part is tilted to extended one first elastic portion, from fixed part downwards an extended weld part, from the extended contact site of end of the first elastic portion, and from extended one second elastic portion of contact site.The fixed part of each conducting terminal is fixed on the first side of corresponding terminal containing slot.The corresponding multiple conducting terminal settings of multiple metal support elements.Each metal support element is buried the second side that is fixed on corresponding terminal containing slot underground, wherein each metal support element extends below the end of the second elastic portion of corresponding conducting terminal, while pegging graft for electronic cards, allow the end butt of the second elastic portion of conducting terminal to this metal support element, thereby produce one second elastic anchorage force.

Therein in a preferred embodiment, the first elastic portion of each conducting terminal comprises two the first elastic arms, wherein two the first elastic arms extend from a side of fixed part with being spaced a distance, wherein one end of two the first elastic arms is connected and fixed portion, and the other end of two the first elastic arms extends in opposite directions and combines to form this contact site.

In a preferred embodiment, the second elastic portion comprises from two the second elastic arms of the extended space of contact site one segment distance therein, and wherein the end of two the second elastic arms merges together.In a preferred embodiment, the end of the second elastic portion of each conducting terminal is the free end slightly upwards bending therein.In other words, described the second elastic portion comprises from two the second elastic arms of the further extended space of this contact site one segment distance, and the end of wherein said two the second elastic arms is the slightly upwards free ends of bending that combine.

In a preferred embodiment, insulating body is substantially cuboid therein.The end of two the second elastic arms of each conducting terminal is lower than the upper surface of insulating body.

Therein in a preferred embodiment, each metal support element be fixed on two the second elastic arms of corresponding conducting terminal end below and leave a gap.

In a preferred embodiment, this gap is less than the contact site of corresponding conducting terminal apart from the vertical range of the upper surface of insulating body therein.

In a preferred embodiment, shield shell comprises at least one pressure section therein, and wherein pressure section stretches into the electronic cards host cavity that insulating body and shield shell define downwards, to press down the electronic cards of insertion.

In a preferred embodiment, two the first elastic arms of the weld part of each conducting terminal and this first elastic portion are positioned at the same side of this fixed part therein, and are to extend downwards between two the first elastic arms.

In a preferred embodiment, electronic card coupler further comprises a probe assembly therein, and wherein probe assembly comprises part and be positioned at a movable contact of the electronic cards host cavity that insulating body and shield shell define.Movable contact comprises a weld part.Shield shell is electrically connected a circuit board, and movable contact is contacting shield shell in the time not inserting electronic cards.

In a preferred embodiment, electronic card coupler further comprises two supports that are separately fixed at insulating body both sides therein, and wherein each support arranges at least one hook portion, and on shield shell, coordinates described hook portion to be provided with multiple fixing holes.

In a preferred embodiment, described metal support element is to adopt insertion moulding process to be fixed to the second side of insulating body therein.Each conducting terminal and a metal support elements relative should.Insulating body is also provided with on the week edge of terminal containing slot multiple holes of thrusting of running through up and down, and wherein the ora terminalis of at least two metal support elements is to extend to thrust in hole and be to separate to arrange.

The beneficial effects of the utility model are: in preferred embodiment of the present utility model, the end of the terminal of electronic card coupler can be pressed on metal support element in the time that electronic cards is pegged graft, with the sub-elastic anchorage force in providing end and prevent that termination contact portion from crossing compressive strain, be so conducive to steady in a long-term use.

Brief description of the drawings

Fig. 1 is the schematic diagram of the utility model one preferred embodiment, and it illustrates a circuit board, an electronic cards and an electronic card coupler.

Fig. 2 is the decomposing schematic representation of the electronic card coupler of the utility model one preferred embodiment.

Fig. 3 is another decomposing schematic representation of the electronic card coupler of the utility model one preferred embodiment.

Fig. 4 is the schematic diagram of the utility model one preferred embodiment, and it illustrates insulating body, metal support element, support and conducting terminal.

Fig. 5 is the schematic diagram of the electronic card coupler of the utility model one preferred embodiment.

Fig. 6 is the cutaway view along Fig. 5 hatching 1000-1000.

Critical piece symbol description:

1 circuit board

2 electronic cards

3 electronic card couplers

11 weld pads

20 openings

30 electronic cards host cavities

31 insulating bodies

32 shield shells

33 conducting terminals

34 metal support elements

35 probe assemblies

36 supports

311 terminal containing slots

312 upper surfaces

314 thrust hole

321 pressure sections

322 holding parts

323 fixing holes

331 fixed parts

332 first elastic portion

333 contact sites

334 second elastic portion

335 weld parts

342 ora terminalis

351 movable contacts

352 weld parts

353 insulating parts

361 hook portions

3111 first sides

3112 second sides

3321 first elastic arms

3331 second elastic arms

3341 ends

3531 shrinkage pools

G gap

H vertical range.

Embodiment

Shown in Fig. 3, electronic card coupler 3 can be arranged on circuit board 1, and the electronic cards 2 of can pegging graft.In some preferred embodiments, electronic card coupler 3 is weldingly fixed on circuit board 1, but the utility model is not as limit.In some preferred embodiments, electronic cards 2 is user identification module (subscriber identity module or subscriber identification module; SIM) card, but the utility model is not as limit.

Shown in Fig. 4, electronic card coupler 3 comprises an insulating body 31, a shield shell 32, multiple conducting terminal 33 and multiple metal support element 34.Multiple metal support elements 34 one by one corresponding multiple conducting terminal 33 arrange.Insulating body 31 is substantially cuboid (but the utility model is not as limit), multiple conducting terminals 33 are fixed on insulating body 31, and have respectively can be freely a movable end 3341, wherein when conducting terminal 33 is pressed down or when resilience, end 3341 can move with respect to insulating body 31.In the time that electronic cards 2 is inserted electronic card coupler 3, the end 3341 of each conducting terminal 33 is understood butts or is pressed on corresponding metal support element 34, thereby produces one second elastic anchorage force, and makes conducting terminal 33 more tight with contacting of electronic cards 2.In addition, shield shell 32 can be installed in the top of insulating body 31, and defines an electronic cards host cavity 30 between shield shell 32 and insulating body 31, and wherein electronic cards 2 is plugged in electronic cards host cavity 30.

Shown in Fig. 4, insulating body 31 is provided with multiple terminal containing slots 311.In this preferred embodiment, terminal containing slot 311 can upper and lowerly run through insulating body 31.Each terminal containing slot 311 comprises one first side 3111 and one second side 3112, and wherein the first side 3111 is relative with the second side 3112.Each conducting terminal 33 can be arranged in corresponding terminal containing slot 311 in addition, and is fixed on the first side 3111 of corresponding terminal containing slot 311, and the end 3341 of conducting terminal 33 is second sides 3112 near terminal containing slot 311.

With reference to shown in Fig. 4 to Fig. 6, metal support element 34 extends in end 3341 lower horizontal of corresponding conducting terminal 33.In the time that electronic cards 2 is inserted electronic card coupler 3, the end 3341 of conducting terminal 33 can first be pressed on the upper surface of corresponding metal support element 34, then on metal support element 34, slides, until conducting terminal 33 moves to last crimping position.During due to conducting terminal 33 crimping, be to slide on metal support element 34, and metal support element 34 is not easily damaged recessed than plastic cement, therefore the second elastic anchorage force that conducting terminal 33 is produced by its mobilizable end 3341 can not diminish or even inefficacy.In addition, metal support element 34 can allow conducting terminal 33 not contact insulating body 31 or circuit board 1, and insulating body 31 or circuit board 1 can not scraped slotting and impaired.In this preferred embodiment, a part for metal support element 34 be positioned at conducting terminal 33 end 3341 under.

In this preferred embodiment, metal support element 34 is roughly a horizontally extending sheet metal, and wherein metal support element 34 is that flatly part is buried the second side 3112 that is fixed on terminal containing slot 311 underground.Shown in Fig. 2 and Fig. 4, described metal support element 34 is preferably the second side 3112 that adopts insertion moulding process to be fixed to this insulating body 31, and each conducting terminal 33 is corresponding with a metal support element 34; This insulating body 31 is also provided with on the week edge of terminal containing slot 311 multiple holes 314 of thrusting of running through up and down, and wherein the ora terminalis 342 of at least two metal support elements 34 is to extend to this thrust in hole 314 and be separation setting.Thereby described metal support element 34 can be combined as a whole and be fixed on this insulating body 31 during fabrication, and then use tool (not shown) through thrusting hole 314, described metal support element 34 to be thrust and is separated into the metal support element 34 of monomer one by one, be conducive to like this enhance productivity.

Shown in Fig. 4, each conducting terminal 33 is the arch that sink in both sides, middle part projects upwards substantially.In this preferred embodiment, conducting terminal 33 comprises a fixed part 331, one first elastic portion 332, a contact site 333, one second elastic portion 334 and a weld part 335, wherein weld part 335 is from fixed part 331 to downward-extension, the first elastic portion 332 is tilted to extension from fixed part 331, contact site 333 extends and is positioned at the peak of conducting terminal 33 from the end of the first elastic portion 332, the second elastic portion 334 is further extended from contact site 333.Shown in Fig. 6, in this preferred embodiment, the second elastic portion 334 is from contact site 333 towards oliquely downward extending, and its end 3341 is to be positioned at corresponding terminal containing slot 311 and the upper surface 312 lower than insulating body 31.And in other embodiment (not shown), the second elastic portion 334 is from the oblique downward-extension of contact site 333, and its end 3341 is not in corresponding terminal containing slot 311.In this preferred embodiment, the end 3341 of the second elastic portion 334 is slightly upwards to bend, and so conducting terminal 33 can not contact corresponding metal support element 34 with its sharp edges, thereby can comparatively successfully slide at metal support element 34.

Shown in Fig. 6, in this preferred embodiment, the fixed part 331 of conducting terminal 33 is to bury the first side 3111 that is fixed on corresponding terminal accepting groove 311 underground.In this preferred embodiment, metal support element 34 is to extend below the end 3341 of the second elastic portion 334 of conducting terminal 33, while pegging graft for electronic cards 2, allow end 3341 butts of the second elastic portion 334 of conducting terminal 33 to metal support element 34 to produce one second elastic anchorage force.The first elastic portion 332 is connected to one end of contact site 333, and the second elastic portion 334 is connected to the other end of contact site 333.In this preferred embodiment, the first elastic portion 332 and the second elastic portion 334 are rough isometric, and so with respect to the first side 3111 and the second side 3112, the contact site 333 of conducting terminal 33 is positioned near on the centre position of corresponding terminal accepting groove 311.

Shown in Fig. 4, in this preferred embodiment, the first elastic portion 332 of conducting terminal 33 is better comprises two the first elastic arms 3321.Two the first elastic arms 3321 extend separately from a side of fixed part 331 segment distance, wherein one end of two the first elastic arms 3321 is connected and fixed portion 331, and the other end of two the first elastic arms 3321 extends in opposite directions and combines to form contact site 333.

Shown in Fig. 4, in this preferred embodiment, the weld part 335 of conducting terminal 33 is preferably the same side that is positioned at this fixed part 331 with two the first elastic arms 3321 of this first elastic portion 332, and be to extend from punching press downwards between two the first elastic arms 3321 of correspondence, be conducive to like this save raw material.

Shown in Fig. 4, in this preferred embodiment, the second elastic portion 334 of conducting terminal 33 comprises from further extended two of being spaced a distance the second elastic arm 3331 of contact site 333, and wherein the end 3341 of two the second elastic arms 3331 is the free ends that combine.Adopt the form of spaced two the second elastic arms 3331 can produce the effect that stress is eliminated.

Shown in Fig. 6, in this preferred embodiment, each metal support element 34 be fixed on corresponding conducting terminal 33 two the second elastic arms 3331 end 3341 belows and leave a gap g.Gap g is less than the contact site 333 of corresponding conducting terminal 33 apart from the vertical range h of the upper surface 312 of insulating body 31, and the conducting terminal 33 so being pressed down by electronic cards 2 can be pressed on corresponding metal support element 34, thereby produces the second elastic anchorage force.

In this preferred embodiment, multiple conducting terminals 33 and multiple metal support element 34 are to adopt the mode of burying moulding underground to be fixed on insulating body 31, but the utility model is not as limit.

Shown in Fig. 2 and Fig. 6, shield shell 32 comprises two pressure sections 321.In this preferred embodiment, pressure section 321 is positioned at the top of shield shell 32, and stretches into the electronic cards host cavity 30 jointly being defined by shield shell 32 and insulating body 31 downwards.After electronic cards 2 is inserted, pressure section 321 presses on the upper surface of the electronic cards 2 of insertion, and electronic cards 2 is contacted more closely with the contact site 333 of conducting terminal 33.

Shown in Fig. 2 and Fig. 3, in this preferred embodiment, electronic card coupler 3 also comprises a probe assembly 35.Whether this probe assembly 35 has electronic cards 2 to insert electronic card coupler 3 in order to detect.Probe assembly 35 comprises movable contact 351 and an insulating part 353, and movable contact 351 is buried underground and is fixed in insulating part 353, and this movable contact 351 has a weld part 352.Shown in Fig. 2 and Fig. 5, the weld part 352 of probe assembly 35 can be welded on the weld pad 11 of circuit board 1, to be electrically connected circuit board 1.Shield shell 32 also can be welded on the weld pad 11 of circuit board 1, thereby to be electrically connected circuit board 1 ground connection.Probe assembly 35 is normally closed switchs; In the time that electronic cards 2 is not inserted electronic card coupler 3, thereby the movable contact 351 of probe assembly 35 is contacting shield shell 32 ground connection.After electronic cards 2 is inserted, electronic cards 2 can push away movable contact 351 to hold shield shell 3, produces a detection signal thereby the current potential of weld part 352 is changed.

Shown in Fig. 2 and Fig. 3, in this preferred embodiment, insulating part 353 is provided with a shrinkage pool 3531, and shield shell 32 comprises the holding parts 322 stretching out downwards, wherein holding parts 322 can with shrinkage pool 3531 interference engagement, so that probe assembly 35 is fixed on shield shell 32.

Shown in Fig. 2 and Fig. 4, in this preferred embodiment, electronic card coupler 3 comprises two supports 36.Two supports 36 are separately fixed at the relative both sides of insulating body 31.Each support 36 comprises two hook portions 361 that outwards stretch out, and on shield shell 32, coordinate described hook portion 361 to be provided with multiple fixing holes 323, wherein said hook portion 361 can hook joint on corresponding fixing hole 323, shield shell 32 is combined by support 36 and insulating body 31.

Shown in Fig. 1 and Fig. 6, the step that electronic cards 2 packs electronic card coupler 3 into is as follows: first press down the first elastic portion 332 near the front-seat conducting terminal 33 of the opening 20 of electronic card coupler 3 in first stage electronic cards 2, thereby make the first elastic portion 332 produce one first elastic force to be resisted against the bottom of electronic cards 2.Then when the first elastic portion 332 moves down until the end 3341 of the second elastic portion 334 while being connected on metal support element 34, the end 3341 of the second elastic portion 334 will be resisted against on metal support element 34 and continue the second side 3112 slippages towards corresponding terminal accepting groove 311.In the time that the second elastic portion 334 is pressed on corresponding metal support element 34, strengthen the forward contact force of contact site 333 thereby will produce second elastic anchorage force.The metal support element 34 being embedded on insulating body 31 is not easy because the slippage of the second elastic portion 334 of conducting terminal 33 is worn and torn, and is conducive to contact site 333 compressive strains excessively that use and prevent conducting terminal 33 steady in a long-term.

Technology contents of the present utility model and technical characterstic disclose as above, but those skilled in the art still may be based on teaching of the present utility model and announcements and done all replacement and modifications that does not deviate from the utility model spirit.Therefore, protection range of the present utility model should be not limited to implement example those disclosed herein, and should comprise various do not deviate from replacement of the present utility model and modifications, and is contained by the listed interest field of appending claims.

Claims (10)

1. an electronic card coupler, is characterized in that: described electronic card coupler comprises:

One insulating body, described insulating body is provided with the multiple terminal containing slots that run through up and down, and each terminal containing slot comprises one first relative side and one second side;

One shield shell, described shield shell is installed in the top of described insulating body, and defines an electronic cards host cavity between this shield shell and this insulating body;

Multiple conducting terminals, each conducting terminal comprise a fixed part, from described fixed part be tilted to extended one first elastic portion, from described fixed part downwards an extended weld part, from the extended contact site of end of described the first elastic portion and from further extended one second elastic portion of described contact site, wherein the described fixed part of each conducting terminal is fixed on this first side of corresponding terminal containing slot; And

Multiple metal support elements, the corresponding described multiple conducting terminal settings of described multiple metal support element, wherein each metal support element is fixed on this second side of corresponding terminal containing slot, wherein each metal support element extends below the end of this second elastic portion of corresponding conducting terminal, thereby while pegging graft for an electronic cards, allows end butt to this metal support element of the second elastic portion of this conducting terminal produce one second elastic anchorage force.

2. electronic card coupler according to claim 1, it is characterized in that: the first elastic portion of described each conducting terminal comprises two the first elastic arms, wherein said two the first elastic arms extend from a side of this fixed part with being spaced a distance, one end of wherein said two the first elastic arms connects this fixed part, and the other end of described two the first elastic arms extends in opposite directions and combines to form this contact site.

3. electronic card coupler according to claim 1, it is characterized in that: described the second elastic portion comprises from two the second elastic arms of the further extended space of this contact site one segment distance, the end of wherein said two the second elastic arms is the upwards free ends of bending that combine.

4. electronic card coupler according to claim 3, is characterized in that: described insulating body is cuboid, and the end of two the second elastic arms of each conducting terminal is lower than the upper surface of this insulating body.

5. electronic card coupler according to claim 4, is characterized in that: described each metal support element be fixed on two the second elastic arms of corresponding conducting terminal end below and leave a gap.

6. electronic card coupler according to claim 5, is characterized in that: described gap is less than the contact site of corresponding conducting terminal apart from the vertical range of the upper surface of this insulating body.

7. electronic card coupler according to claim 1, is characterized in that: described shield shell comprises at least one pressure section, and wherein this pressure section stretches into the electronic cards host cavity that this insulating body and this shield shell define downwards, to press down the electronic cards of insertion.

8. electronic card coupler according to claim 2, is characterized in that: two the first elastic arms of the weld part of described each conducting terminal and this first elastic portion are positioned at the same side of this fixed part, and extends downwards between two the first elastic arms.

9. electronic card coupler according to claim 1, it is characterized in that: described electronic card coupler further comprises two supports that are separately fixed at these insulating body both sides, wherein on each support, at least one hook portion is set, and on this shield shell, coordinates described hook portion to be provided with multiple fixing holes.

10. electronic card coupler according to claim 1, is characterized in that: described metal support element is to adopt insertion moulding process to be fixed to the second side of this insulating body, and each conducting terminal and a described metal support elements relative should; This insulating body is in week of terminal containing slot along being also provided with multiple holes of thrusting of running through up and down, and wherein the ora terminalis of at least two metal support elements extends to this and thrusts in the hole in and be and separate setting.