CN201097428Y - Stacked electric connector - Google Patents

Abstract

Disclosed is a stack-type electric connector, which comprises an insulation body and a plurality of conductive terminals arranged inside the insulation body. The insulation body is provided with an integrally molded first inserting mouth and a second inserting mouth beneath the first inserting mouth with the same structure; a first tongue plate is arranged inside the first inserting mouth; the conductive terminals comprise first and second terminals respectively held inside the first and the second inserting mouths; the conductive terminals comprises a plurality of first contacting terminals; the first contacting terminals are provided with first contacting parts distributed at the lower side of the first tongue plate and a first welding part extended out of the insulation body; the first terminals are also provide with a plurality of first attached terminals; the first attached terminals are provided with butt-jointing parts arranged at the lower side of the first tongue plate and welding parts extended out of the insulation body; the first contacting parts and the butt-jointing parts of the first attached terminals are in different planes along the thickness direction of the first tongue plate. With simple structure, the stack-type electric connector can increase signal transmission rate.

Description

Stack-type electric connector

[technical field]

The utility model relates to a kind of stack-type electric connector, relates in particular to a kind of stack-type electric connector that improves signal transmission rate.

[background technology]

(Universal Serial Bus, USB) interface has been widely used in numerous design of electronic devices as a kind of input/output interface of standard USB.Up to the present, USB association has issued versions such as 1.0,1.1 and 2.0.

Above-mentioned USB 1.0,1.1,2.0 versions are supported following three kinds of transmission rates respectively: (1), low-speed mode transmission rate are 1.5 MBPSs, are used for keyboard and mouse more; (2), mode transfer speed is 12 MBPSs at full speed; (3), the fast mode transmission rate is 480 MBPSs.

Yet, along with the development of electronics industry, even the transmission rate of USB 2.0 can not satisfy the demand for development of some electronics industry, for example, under the situation of transmission of audio or video, in order to guarantee signal transmission quality, transmission rate is often up to 1G to 2G per second (1G=1000 megabit).Two other class interfaces in the electric connector field have obviously surpassed USB 2.0 interfaces as the transmission rate of PCI-E (transmission rate can reach the 2.5G per second) and SATA interface (transmission rate can reach 1.5G to 3.0G per second).

But, PCI-E and SATA interface are owing to use far away not as good as USB, and the number of terminals of this two class interface is more, volume is bigger, especially through pile up be provided with after the arrangement of terminal complicated more, be difficult to adapt to light, thin, short, the little development trend of following electronics industry.

The USB socket electric connector generally is installed on the host circuit board, meets the USB 2.0 version A type electric connector for socket of USB association regulation, comprises the insulation tongue piece, is retained on four contact terminals and metal shell on the insulation tongue piece.Described four contact terminals are positioned at the lower surface of insulation tongue piece, and the lower surface of outstanding downwards insulation tongue piece.Described contact terminal has certain elasticity, can be along moving on the short transverse of insulation tongue piece.These four contact terminals comprise a power supply terminal, an earth terminal (GND), a positive signal terminal (D+) and a negative signal terminal (D-), wherein, positive signal terminal and the negative signal terminal set of differential signal terminals that partners is positioned between power supply terminal and the earth terminal (GND), and described metal shell is centered around insulation tongue piece periphery to form a receiving space in order to accommodate the USB plug electric connector to reach signal transmission each other.

So be necessary to design a kind of electric connector for socket, it is based on USB 2.0 interfaces and can reach higher transmission rate, and through pile up be provided with after structure uncomplicated.

[utility model content]

The purpose of this utility model is to provide a kind of stack-type electric connector that improves signal transmission rate.

For achieving the above object, the utility model adopts following technical scheme: a kind of stack-type electric connector, it comprises insulating body and is installed on the interior plurality of conductive terminals of insulating body, one-body molded second interface that the first identical interface of structure is arranged and be positioned at first interface below of insulating body wherein, be provided with first hyoplastron in described first interface, described conducting terminal comprises the first terminal and second terminal that is immobilizated in respectively in first interface and second interface, described the first terminal comprises some first contact terminals, described first contact terminal is provided with first contact site that is distributed in the first hyoplastron downside and first welding foot that extends insulating body, described the first terminal also comprises some first additional terminal, described first additional terminal is provided with docking section that is distributed in the first hyoplastron downside and the weld part that extends insulating body, and described first contact site is positioned on the different planes along the first hyoplastron thickness direction with the docking section of first additional terminal.

Compared with prior art, the utlity model has following beneficial effect: on the basis of original some first contact terminals, increase some first additional terminal, thereby can improve the signal transmission rate of this kind stack-type electric connector, can simplify the structure of this kind stack-type electric connector again, comply with light, thin, short, the little development trend of electronic industry.

[description of drawings]

Fig. 1 is the three-dimensional combination figure of the utility model stack-type electric connector first preferred embodiment.

Fig. 2 is the unit assembly drawing of the utility model stack-type electric connector first preferred embodiment.

Fig. 3 is the three-dimensional exploded view of the utility model stack-type electric connector first preferred embodiment.

Fig. 4 is the three-dimensional exploded view of another angle of the utility model stack-type electric connector first preferred embodiment.

Fig. 5 is the front view of the utility model stack-type electric connector first preferred embodiment

Fig. 6 is the front view of the utility model stack-type electric connector second preferred embodiment.

Fig. 7 is the end view of the utility model stack-type electric connector second preferred embodiment.

Fig. 8 is the three-dimensional exploded view of the utility model stack-type electric connector second preferred embodiment.

Fig. 9 is the three-dimensional exploded view of another angle of the utility model stack-type electric connector second preferred embodiment.

Figure 10 is the three-dimensional combination figure of the utility model stack-type electric connector the 3rd preferred embodiment.

Figure 11 is the three-dimensional combination figure of the utility model stack-type electric connector the 4th preferred embodiment.

[embodiment]

See also Fig. 1 to first preferred embodiment that Figure 5 shows that the utility model stack-type electric connector 100, it comprises insulating body 1, be immobilizated in plurality of conductive terminals 2 in the insulating body 1, be installed on the insulating body 1 shielding casing 3 and in order to the locating piece 4 of location conducting terminal 2.

Described insulating body 1 is to pile up up and down and is provided with first interface 10 and second interface 11, described first interface 10 and second interface, 11 structures are roughly the same, and its shape all interface shape with the USB2.0 A type electric connector for socket (not shown) of standard is identical.Described insulating body 1 is provided with a base portion 12, be extended with first hyoplastron 13 and second hyoplastron 14 that extends in first interface 10 and second interface 11 respectively forward from described base portion 12, the hyoplastron of the size of described first hyoplastron 13 and second hyoplastron 14 and the USB2.0 A type electric connector for socket (not shown) of industrywide standard is measure-alike, thereby can comply with the trend of electronic industry development, make with the similar interface of USB2.0 A type electric connector for socket (not shown) to be more widely used, make things convenient for consumer's use.Described first hyoplastron 13 is identical with the structure of second hyoplastron 14, so locate only first hyoplastron 13 to be done detailed description.Described first hyoplastron 13 is respectively equipped with relative upper surface 131 and lower surface 132, is concaved with five connection first hyoplastron, 13 front ends that are provided with at interval and first accepting groove 1310 of insulating body 1 rear end on described first hyoplastron, 13 upper surfaces 131 side by side; The described first tongue version, 13 lower surfaces 132 are concaved with some discontinuous second accepting grooves 1320 and the 3rd accepting groove 1321, described second accepting groove 1320 is connected with first accepting groove 1310 at first hyoplastron, 13 front ends, described second accepting groove 1320 is arranged side by side corresponding to first accepting groove 1310 and is five and is close to the 132 front end settings of first hyoplastron, 13 lower surfaces, described the 3rd accepting groove 1321 is arranged side by side to be four and to be communicated with the rear end of insulating body 1, is provided with certain spacing along insulating body 1 fore-and-aft direction between described second accepting groove 1320 and the 3rd accepting groove 1321.Be provided with a dividing plate 15 between first interface 10 and second interface 11; Described base portion 12 is provided with two sides 121 and a bottom surface 122.In order to be immobilizated on the base portion 12 shielding casing 3 is stable, the groove 1211 that described two sides 121 are provided with some projections 1210 near rear end and are positioned at projection 1210 sides is in order to match with shielding casing 3.Described bottom surface 122 is provided with some boss 1220, is convenient to the utility model stack-type electric connector 100 is installed on the circuit board of main frame (not shown).

Described conducting terminal 2 comprises the first terminal 20 and second terminal 21 that is installed on respectively in first interface 10 and second interface 11.Described the first terminal 20 and second terminal, 21 structures are roughly the same, and just the first terminal 20 relative second terminals 21 are longer, so locate only the first terminal 20 to be done detailed description.

Described the first terminal 20 comprises four first contact terminals 201 and some first additional terminal 202 that is used for transmit high-speed signals, described first contact terminal 201 is identical with the terminal of standard USB2.0 A type electric connector for socket (not shown), described first contact terminal 201 is provided with rubber-like first contact site 2010 that extends in first interface 10, with insulating body 1 base portion 12 mutually fixing first holding parts 2011 and from first welding foots 2012 of first holding parts 2011 bending downwards the extending insulating body 1; Described first contact site 2010 is arranged side by side about on perpendicular to the Width of first hyoplastron 13 of fore-and-aft direction.Described first contact site 2010 protrudes in the lower surface 132 of first hyoplastron 13.In addition, described first contact site 2010 is contained in the 3rd corresponding accepting groove 1321 cantilever-shapedly, can be convenient to contact with the tabular terminal of plug connector (not shown) along moving on the short transverse of first hyoplastron 13 so it has certain elasticity.

Described first additional terminal 202 is provided with the docking section that is distributed in first hyoplastron, 13 downsides, with insulating body 1 fixed part of fixing mutually, connect docking section and fixed part and also be coated on the connecting portion of first hyoplastron, 13 front ends and the weld part that sub-fixed part one end extends insulating body 1.Described first additional terminal 202 comprises two pairs first difference signal terminal 203 and one first earth terminal 204.In described two pairs first difference signal terminal 203, wherein a pair of difference signal terminal is used to export high speed signal and another is used to accept high speed signal to first difference signal terminal 203.Described first earth terminal 204 is between each is to first difference signal terminal 203, in order to reduce by crosstalking that first difference signal terminal 203 produces when the transmission signals.Each first difference signal terminal 203 all is arranged side by side about on the Width of first hyoplastron 13.The docking section of described first additional terminal 202 comprises the first tabular docking section of being located on each first difference signal terminal 203 2031 that is, described connecting portion comprises from upwardly extending first connecting portion 2032 of first docking section, 2031 leading edges, described fixed part comprises first fixed part 2033 that extends back from first connecting portion 2032, described weld part comprises first weld part 2034 that extends from first fixed part, 2033 rear ends downwards, wherein, described first fixed part 2033 and first docking section 2031 are extended and are parallel to each other along fore-and-aft direction.Described first fixed part 2033 and first docking section 2031 all are roughly flat strip.In addition, described first weld part 2034 is perpendicular to first fixed part 2033.The structure of the structure of described first earth terminal 204 and each first difference signal terminal 203 is roughly the same, thereby the docking section of described first additional terminal 202 also comprises the second tabular docking section of being located on first earth terminal 204 2041 that is, described connecting portion also comprises from upwardly extending second connecting portion 2042 of second docking section, 2041 leading edges, described fixed part also comprises second fixed part 2043 that extends back from second connecting portion 2042, described weld part also comprises second weld part 2044 that extends from second fixed part, 2043 rear ends downwards, wherein, described second fixed part 2043 and second docking section 2041 are extended and are parallel to each other along fore-and-aft direction.Described second fixed part 2043 and second docking section 2041 all are roughly flat strip.In addition, described second weld part 2044 is perpendicular to second fixed part 2043.When described first additional terminal 202 was immobilizated in first interface 10, described first fixed part 2033 and second fixed part 2043 all were contained in first accepting groove 1310 of first hyoplastron, 13 upper surfaces 131.Described first, second connecting portion 2032,2042 is coated on the front end of first hyoplastron 13.Described first, second tabular docking section 2031,2041 is positioned at below and first, second corresponding fixed part 2033,2043 weak points of ratio of first, second corresponding fixed part 2033,2043.Described first, second docking section 2031,2041 is labelled in second accepting groove 1320 of the lower surface 132 of first hyoplastron 13.Described tabular first, second docking section 2031,2041 is positioned at the front row of first hyoplastron 13; Described elasticity first contact site 2010 is positioned at the back row of first hyoplastron 13, and promptly first, second docking section 2031,2041 is compared to the front end of first contact site, 2010 more close first hyoplastrons 13.Because second of lower surface 132, the 3rd accepting groove 1320, the 1321st, disconnected, so first, second docking section 2031, there is certain distance in 2041 and first contact site 2010 on the length direction of first hyoplastron 13, be that they do not contact each other, in case the confusion of stop signal transmission, and with this first, second docking section 2031,2041 and first contact site 2010 is arranged at the fore-and-aft direction of first hyoplastron, 13 the same sides, thereby can make full use of the space of first hyoplastron 13, prevent all first contact sites 2010 and first, second docking section 2031,2041 when being positioned at same row, and the distance that each the first terminal is 20 is less and be easy to generate signal cross-talk; First contact site 2010 of described in addition first contact terminal 201 is set to the lower surface 132 that elasticity protrudes in first hyoplastron 13, and the docking section 2031 of first additional terminal 202,2041 are set in tabular second accepting groove 1320 that is contained in first hyoplastron, 13 lower surfaces 132, thereby can make things convenient for the grafting of two kinds of different banjo connectors (not shown), promptly abut to the tabular docking section 2031 of first additional terminal 202 at USB2.0 A type pin connector (not shown) Shi Buhui of the standard of insertion, 2041, and elasticity first contact site 2010 of direct and first contact terminal 201 connects to prevent signal cross-talk; And when inserting another kind of different banjo connector (not shown), can guarantee that two different contact points on the banjo connector (not shown) all effectively contact with the utility model stack-type electric connector 100, with the stable transfer of assurance signal.

Described shielding casing 3 comprises shell body 31, bonnet 32 that is coated on insulating body 1 and the inner housing 33 that is coated on dividing plate 15.

Described shell body 31 is a hollow structure, the two side 312 that it comprises roof 310, diapire 311 and connects roof 310 and diapire 311.Described shell body 31 be installed on the base portion 12 and the periphery that is positioned at first, second hyoplastron 13,14 to form described first, second interface 10,11.Be respectively equipped with first elastic arm 313 that extends in first, second interface 10,11 on the roof 310 of described shell body 31 and the diapire 311.Described each sidewall 312 is equipped with second elastic arm 314 that extends in first, second interface 10,11.Roof 310 rear ends of described shell body also are provided with a pair of groove 3100.Described two side 312 is respectively equipped with recess 3120 and the Extendible flake 3121 that matches with the projection 1210 and the groove 1211 of base portion 12, by said structure shell body 31 is stablized to be immobilizated on the base portion 12.Be extended with a pair of installation foot 3122 respectively downwards from described two side 312.

Described bonnet 32 comprises a pair of fixing arm 322 that ora terminalis extends forward on a main part 321 and the autonomous body 321, and described fixing arm 322 extends in a pair of groove 3100 of shell body 31 roofs 310, bonnet 32 is immobilizated in the rear end of shell body 31.

Described inner housing 33 is provided with a front end face 330, rearwardly projecting a pair of spacer 331 reaches the upper and lower end face 332 that extends back from front end face 330 upper and lower edges from front end face 330 both sides respectively.Described upper and lower end face 332 is equipped with outwards give prominence to a pair of and compresses sheet 333 and be positioned at the installation sheet 334 that compresses sheet 333 rear ends.During assembling, this inner housing 33 is by being installed on behind the forward direction on the dividing plate 15, and described spacer 331 is snapped on the sidewall 312 of shell body 31, and described installation sheet 334 is contained in the holding slot interior (not label) of base portion 12 correspondences.At this moment, the sheet 333 that compresses of described upper and lower end face 332 extends into respectively in first, second interface 10,11 in order to cooperate with banjo (not shown).

Described locating piece 4 is provided with the some through holes 41 of locating piece about in the of 4 that run through, the weld part of described first, second terminal 20,21 all passes these through holes 41, so that these conducting terminals 2 are carried out good location, and then improved the circuit board (not shown) that conducting terminal 2 is welded in main frame and gone up precision.

Consult Fig. 6 to second preferred embodiment that Figure 9 shows that the utility model stack-type electric connector 100, the difference of itself and first preferred embodiment is, described first, second terminal 20 ', 21 ' welding foot and weld part all insert first along banjo (not shown), second interface 10 ', direction in 11 ' extends back insulating body 1 ', described shielding casing 3 ' comprises shell body 31 ' and inner housing 32 ', and the 312 ' direction of inserting along banjo (not shown) respectively extends back and forms the installation foot 3122 ' on the described shell body 31 ' from the two side.

Consult the 3rd preferred embodiment that Figure 10 shows that the utility model stack-type electric connector 100, its be increase on the basis of first preferred embodiment with roughly the same the 3rd interface 16, the three interfaces 16 of described first interface 10 be positioned at first, second interface 10,11 under; It is basic identical with the structure of above-mentioned first, second terminal 20,21 that conducting terminal 2 also increases the 3rd terminal 22, the three terminals 22 that extend in the 3rd interface 16.And described shielding casing 3 increases by second inner housing 35 that is installed between second interface 11 and the 3rd interface 16, and described the 3rd inner housing 35 is identical with above-mentioned inner housing 33 structures.

Consult the 3rd preferred embodiment that Figure 11 shows that the utility model stack-type electric connector 100, the difference of itself and first preferred embodiment is, its be on the basis of first preferred embodiment, increased again the 3rd, the 4th interface 16 ', 17 and be immobilizated in the 3rd, the 4th terminal 22 ', the 23, the three, the 4th interface 16 ', 17 in the 3rd, the 4th interface 16 ', 17 be positioned at first, second interface 10,11 under and identical with first, second interface 10,11 structures; Three, the 4th terminal 22 ', 23 and the structure of above-mentioned first, second terminal 20,21 basic identical.Described shielding casing 3 also increased be installed between second, third interface 11,16 ', second inner housing 35 ' and the 3rd inner housing 36 between the 3rd, the 4th interface 16 ', 17, and second, third inner housing 35 ', 36 identical with inner housing 33 structures among first embodiment.

In sum, the utility model stack-type electric connector 100 is provided with above-mentioned difference signal terminal and earth terminal by increasing on the basis of measured USB2.0 A type electric connector for socket in piling up two or more interfaces of setting, thereby improve the signal transmission rate of whole stack-type electric connector 100, but make the structure of the stack-type electric connector of carry high frequency rate signal obtain simplifying again.

Claims (8)

1. stack-type electric connector, it comprises insulating body and is installed on the interior plurality of conductive terminals of insulating body, one-body molded second interface that the first identical interface of structure is arranged and be positioned at first interface below of insulating body wherein, be provided with first hyoplastron in described first interface, described conducting terminal comprises the first terminal and second terminal that is immobilizated in respectively in first interface and second interface, described the first terminal comprises some first contact terminals, described first contact terminal is provided with first contact site that is distributed in the first hyoplastron downside and first welding foot that extends insulating body, it is characterized in that: described the first terminal also comprises some first additional terminal, described first additional terminal is provided with docking section that is distributed in the first hyoplastron downside and the weld part that extends insulating body, and described first contact site is positioned on the different planes along the first hyoplastron thickness direction with the docking section of first additional terminal.

2. stack-type electric connector as claimed in claim 1 is characterized in that: the insulation tongue piece of the USB2.0 A type electric connector for socket of the size of described first hyoplastron and standard measure-alike.

3. electric connector as claimed in claim 1 is characterized in that: described first contact terminal is identical with the conducting terminal of the USB2.0 A type electric connector for socket of standard.

4. stack-type electric connector as claimed in claim 1, it is characterized in that: described first hyoplastron is provided with relative upper surface and lower surface, described lower surface is concaved with second accepting groove, the docking section of described first additional terminal is tabular and is posted by in second accepting groove, and described first contact site is elasticity and protrudes in lower surface.

5. stack-type electric connector as claimed in claim 4, it is characterized in that: the described first hyoplastron lower surface also is concaved with the 3rd accepting groove, described second accepting groove and the 3rd accepting groove are set to two rows along the first hyoplastron length direction, and described first contact terminal is installed in the 3rd accepting groove.

6. stack-type electric connector as claimed in claim 4 is characterized in that: described each first additional terminal also is provided with fixed part that is parallel to the docking section and the connecting portion that connects docking section and fixed part, and described weld part forms from the extension of fixed part one end.

7. stack-type electric connector as claimed in claim 6, it is characterized in that: the described first hyoplastron upper surface is concaved with first accepting groove, described first accepting groove is connected with the front end of second accepting groove at first hyoplastron, and the fixed part of described first additional terminal is posted by in first accepting groove.

8. stack-type electric connector as claimed in claim 1 is characterized in that: described second terminal is identical with the first terminal structure, and described stack-type electric connector also is provided with the shielding casing that is coated on insulating body.

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