CN201927781U - Stack type electric connector - Google Patents

Abstract

The utility model discloses a stack type electric connector which comprises an insulating body, a first connector assembled on the insulating body and an external shielding shell, wherein a first butting connector can be inserted into the first connector from front to back; the first connector comprises a first shielding shell, a tongue plate held in the first shielding shell, and a first butting terminal arranged on the tongue plate; the external shielding shell is provided with a front surface perpendicular to the insertion direction of the first butting connector; and the foremost side of the first shielding shell is flush with the front surface. With the adoption of connector, the distance between the front surface of the stack type electric connector and the foremost side of the tongue plate in a front-back direction and the distance between the foremost side of an internal shielding shell and the foremost side of the tongue plate in the front-back direction are ensured to be same; an inserted depth cannot be influenced by the thickness of the wall of the external shielding shell when the first butting connector is inserted; and the first butting connector is favorably inserted in position, so that the stack type electric connector better meets actual application requirements.

Description

Stack-type electric connector

[technical field]

The utility model relates to a kind of stack-type electric connector, particularly relates to the structure of this stack-type electric connector shield shell.

[technical background]

The notification number of announcing on April 21st, 2010 is that the TaiWan, China patent of M379228 has disclosed a kind of stack-type electric connector, described stack-type electric connector comprises insulating body, be assembled in the dual-port USB3.0 connector on the insulating body, be located at the exterior shield housing in insulating body and the dual-port USB3.0 connector outside, the USB3.0 connector is provided with the internal shield housing, be contained in USB terminal and hyoplastron in the internal shield housing, described USB terminal is immobilizated on the hyoplastron, the front side of described internal shield housing is provided with can guide the flange that corresponding banjo inserts from front to back, the exterior shield housing is provided with the shell antetheca, the described shell antetheca outside is provided with the front surface perpendicular to the banjo direction of insertion, described front surface offers shell first craft port of inserting for banjo, flange is positioned at the rear side of shell antetheca, thereby makes front surface be positioned at the front side of flange.Design according to prior art, the front side of front surface and hyoplastron is inconsistent in the distance of fore-and-aft direction in the front side of the front side of the distance of fore-and-aft direction and internal shield housing and hyoplastron, front surface is positioned at the front side of flange, when stack-type electric connector is installed on external equipment, the USB banjo might influence the degree of depth of insertion because of the wall thickness of exterior shield housing when inserting, and puts in place thereby cause the USB banjo to insert.

Therefore, be necessary to provide a kind of stack-type electric connector of the above-mentioned defective that overcomes prior art to satisfy real world applications better.

[utility model content]

Technical problem to be solved in the utility model is to provide a kind of butt connector that is beneficial to insert the stack-type electric connector that puts in place.

For solving above technical problem, the utility model adopts following technical scheme: a kind of stack-type electric connector, it can dock with one first butt connector, described stack-type electric connector comprises insulating body, be assembled in first connector on the insulating body and be located at insulating body and the exterior shield housing in first connector outside, first connector can insert to realize mutual butt joint from front to back for first butt connector, described first connector comprises first shield shell, what be contained in the hyoplastron in first shield shell and be located at that some on the hyoplastron can docks with first butt connector first docks terminals, the exterior shield housing is provided with the shell antetheca, the described shell antetheca outside is provided with the front surface perpendicular to the first butt connector direction of insertion, described front surface offers shell first craft port of inserting for first butt connector, and the front side of first shield shell is concordant with front surface.

With respect to prior art, the front side of the design's first shield shell is concordant with front surface, the front side that has guaranteed stack-type electric connector front surface and hyoplastron is consistent in the distance of fore-and-aft direction in the front side of the front side of the distance of fore-and-aft direction and internal shield housing and hyoplastron, first butt connector can not influence the degree of depth of insertion because of the wall thickness of exterior shield housing when inserting, being beneficial to the insertion that guarantees first butt connector puts in place, thereby make the design's stack-type electric connector satisfy the real world applications requirement preferably, be beneficial to applying of the design's stack-type electric connector.

Below in conjunction with diagram the design is described in detail.

[description of drawings]

Fig. 1 is the front view of the utility model stack-type electric connector.

Fig. 2 is the stereogram of the utility model stack-type electric connector.

Fig. 3 is the decomposing schematic representation of the utility model stack-type electric connector.

Fig. 4 is the stereogram after the utility model stack-type electric connector removes the exterior shield housing.

Fig. 5 is the stereogram of the utility model stack-type electric connector insulating body.

Fig. 6 is the stereogram of first connector of the utility model stack-type electric connector.

Fig. 7 is the stereogram of first another angle of connector shown in Figure 6.

Fig. 8 is the decomposing schematic representation of first connector shown in Figure 6.

Fig. 9 is the decomposing schematic representation figure of first another angle of connector shown in Figure 6.

Figure 10 is the cutaway view along A-A line among Fig. 1.

[main element symbol description]

Stack-type electric connector 100

Insulating body 11

Antetheca 110

Left and right sidewall 111

Roof 112

Second craft port 113

First receiving space 114

Rear wall 115

Cantilevered leg 1150

Second receiving space 116

Indicating device accepting groove 117

Fixing arm 118

RJ45 terminal module 12

Vertical sub-circuit board 120

RJ45 terminal 121

Interconnecting module 122

Conversion terminal 1220

First connector 13

Second insulating body 130

Main part 1300

Overhang 1301

Bottom installation portion 1302

Upper and lower hyoplastron 131

Hyoplastron main part 1310

Holding parts 1311

Elastic arm 1312

Grab 1313

Front end face 1314

Upper and lower USB terminal 132

Docking section 1320

Installation portion 1321

Back pedestal 133

The 3rd terminal hole 1330

The 4th terminal hole 1331

The 5th terminal hole 1332

The 6th terminal groove 1333

First shield shell 134

Main casing body 1340

Inner shield 1341

Base portion 1342

Holding part 1343

Internal shield portion 1344

First craft port 1345

Hyoplastron 136

The first butt joint terminal 137

Indicating device 14

The first terminal hole 1500

Accepting groove 1501

Link slot 1502

Second terminal hole 1503

Breach 1504

Guide rail structure 1505

Left and right sidewall 1510

First flange 1511

Upper and lower sidewall 1512

Second flange 1513

Installation foot 1514

First connecting portion 1515

First parallel portion 1516

Second connecting portion 1517

Second parallel portion 1518

Port 1519

Exterior shield housing 16

Procapsid 160

Back casing 161

Two side 1610

Shell rear wall 1611

Shell antetheca 162

Front surface 1620

Shell first craft port 1621

Shell second craft port 1622

Indication mouth 1623

First breach 1624

Second breach 1625

Shell roof 163

[embodiment]

See also Fig. 1 to shown in Figure 3, meeting stack-type electric connector 100 of the present utility model is the electric connector that a network connector (RJ45) and USB (USB) connector pile up, it can supply function to be different from first butt connector (not shown) and second butt connector (not shown) inserts from front to back, and can be welded on the external circuit board (not shown).Described stack-type electric connector 100 comprises insulating body 11, be contained in the RJ45 terminal module 12 of described insulating body 11, be assembled in first connector 13 on the described insulating body 11, be contained in the indicating device 14 of described insulating body 11 upsides and be located at described insulating body 11 and the exterior shield housing 16 in first connector, 13 outsides.

See also Fig. 4 and shown in Figure 5, insulating body 11 comprises antetheca 110, left side from described antetheca 110, the left side that right both sides extend back and form, right side wall 111, extend back and connect a left side from antetheca 110, the roof 112 of right side wall 111, extend back and connect a left side from antetheca 110 levels, the next door of right side wall 111 (not label), can be for second craft port 113 of second butt connector insertion, by a left side, right side wall 111 and next door (not label) enclose first receiving space 114 that forms and can accommodate first butt connector, be adjacent to the rear side of first receiving space 114 mutually and connect a left side, the rear wall 115 in right side wall 111 and next door (not label), by a left side, right side wall 111, roof 112 and next door (not label) enclose second receiving space 116 that forms and can accommodate second butt connector, be located at the indicating device accepting groove 117 of second receiving space, 116 upsides, and but the adjacent upside that is arranged at indicating device accepting groove 117 and elasticity are connected to the fixing arm 118 on the indicating device 14.Described first receiving space 114 connects front side and the bottom side to insulating body 11, described second receiving space 116 and second craft port 113 connect, described next door (not label) thus with first receiving space 114 and second receiving space 116 upper and lower spaced apart make first receiving space 114 and second receiving space 116 at upper and lower to piling up setting, described second craft port 113 is located at first connector, 13 upsides.Described rear wall 115 extends in described first receiving space 114 and is provided with cantilevered leg 1150, described first connector 13 is packed into from front to back and is contained in first receiving space 114, and described cantilevered leg 1150 is inserted the rear side of first connector 13 to locate first connector 13.Described fixing arm 118 is the shape that overhangs that extends forward, described indicating device 14 is installed on indicating device accepting groove 117 from front to back gradually under the guiding of fixing arm 118, in installation process, indicating device 14 is with fixing arm 118 jack-up upwards gradually, after the installation, described fixing arm 118 keeps elasticity to be connected on the indicating device 14 with fixing indicating device 14.

See also shown in Figure 3ly, described RJ45 terminal module 12 comprises vertical sub-circuit board 120, an end reclines and be welded in the RJ45 terminal 121 on the front surface of described vertical sub-circuit board 120 and be connected in the interconnecting module 122 of the bottom of described vertical sub-circuit board 120.Described vertical sub-circuit board 120 buckle from back to front is installed on the rear portion of described insulating body 11.Described RJ45 terminal 121 extends in second receiving space 116, docking with second butt connector.Described interconnecting module 122 comprises plurality of adapter coupling terminal 1220, and described conversion terminal 1,220 one ends insert and are welded on the described vertical sub-circuit board 120, and the other end extends straight down and can electrically connect with the external circuit board.

See also Fig. 6 to shown in Figure 10, first connector 13 is dual-port USB 3.0 connectors, it can insert realizing mutual butt joint from front to back for first butt connector, and it comprises second insulating body 130, the hyoplastron 136 that is immobilizated on described second insulating body 130 is installed, be shaped in some first butt joint terminals 137 on the described hyoplastron 136, pass and adjacent first shield shell 134 that places the back pedestal 133 of described second insulating body 130 back and coat described second insulating body 130 for the rear end of the first butt joint terminal 137.Described hyoplastron 136 comprises the upper and lower hyoplastron 131 of upper and lower stacked arrangement, the front side of described hyoplastron 136 is provided with front end face 1314 (being detailed later), the described first butt joint terminal 137 comprises the upper and lower USB terminal of being located at respectively on the corresponding upper and lower hyoplastron 131 132, in the present embodiment, the described first butt joint terminal 137 is shaped on the described hyoplastron 136, certainly, the first butt joint terminal 137 also can be designed to according to different needs can be installed on the described hyoplastron 136.

Described second insulating body 130 comprises the main part 1300 that erects setting, the vertical horizontally extending forward overhang 1301 in autonomous body 1300 middle parts, at the vertical bottom installation portion 1302 that extends forward of main part 1300 bottom positions.Main part 1300 is provided with four the first terminal holes 1500 that connect main part 1300 forward and backward both sides and is located at main part 1300 and arranged on left and right sides and connects a pair of accepting groove 1501 of main part 1300 forward and backward both sides at overhang 1301 upsides, and this lays respectively at the both sides in four the first terminal holes 1500 to accepting groove 1501.Main part 1300 is provided with also simultaneously that autonomous body 1300 front sides extend back and part is communicated with the link slot 1502 of two accepting grooves 1501 and continue to extend back and connect five second terminal holes 1503 to main part 1300 rear sides from link slot 1502.Described main part 1300 also is provided with near the breach 1504 of the rear side of each accepting groove 1501 and is located at the guide rail structure 1505 of main part 1300 and arranged on left and right sides.

Described front side of going up hyoplastron 131 and following hyoplastron 131 is equipped with the front end face 1314 that is in same perpendicular, and promptly front end face 1314 is perpendicular to the direction of insertion of first and second butt connector.Because last hyoplastron 131 is basic identical with the structure of following hyoplastron 131, only there are difference in length in last USB terminal 132 and following USB terminal 132, are succinct description, below only above hyoplastron 131 and last USB terminal 132 be introduced for representative.Last hyoplastron 131 comprise rectangle hyoplastron main part 1310, hyoplastron main part 1310 and arranged on left and right sides be provided with respectively be used for on hyoplastron 131 be immobilizated in the holding parts 1311 of second insulating body 130.Described holding parts 1311 comprises elastic arm 1312 that extends back and the outward extending grabs 1313 that form at elastic arm 1312 ends.Described elastic arm 1312 is contained in accepting groove 1501, and described grab 1313 is fastened in breach 1504 places.Last USB terminal 132 comprises nine conducting terminals (not label) that meet USB 3.0 specifications, and these nine conducting terminals go to upper and lower two rows and distribute, and wherein upward arranges five conducting terminals, four conducting terminals of following row.Each conducting terminal is bent into the right angle substantially, comprises that the one-body molded hyoplastron 131 that is immobilizated in also can dock the docking section 1320 that cooperate and can insert the installation portion 1321 that is mounted to the external circuit board with first butt connector.Described installation portion 1321 from the docking section 1320 rear ends bendings extend, and both are vertical mutually.

Back pedestal 133 is an insulator, it comprises the 3rd terminal hole 1330 that sets gradually from back to front, the 4th terminal hole 1331, the 5th terminal hole 1332, the 6th terminal groove 1333, described the 3rd terminal hole 1330, the 4th terminal hole 1331, the 5th terminal hole 1332, thereby the 6th terminal groove 1333 all in a row arrange and vertically extend connect back pedestal 133 on, following both sides, the 3rd terminal hole 1330 is kept supplying on the USB terminal 132 five conducting terminals of row and is worn, the 4th terminal hole 1331 is kept supplying four first butt joints of 132 times rows of USB terminal terminal 137 and is worn, and each first butt joint terminal 137 of USB terminal 132 wore under the 5th terminal hole 1332 and the 6th terminal groove 1333 supplied respectively.

The front side of first shield shell 134 and the front side of hyoplastron 136 meet the industrywide standard distance of first connector 13 in the distance of fore-and-aft direction, in the present embodiment, be the front side of first shield shell 134 and front end face 1314 meets first connector 13 in the distance of fore-and-aft direction industrywide standard distance.First shield shell 134 comprises the main casing body 1340 that coats described second insulating body 130, be held in main casing body 1340 and extend into first connector, 13 inside inner shield 1341, can insert and upper and lower first craft port 1345 of piling up setting for first butt connector.Main casing body 1340 comprises is located at main casing body 1340 left sides, the left side of right both sides, right side wall 1510, be located at main casing body 1340 left sides equally, right both sides are also left certainly, outward extending first flange 1511 of the front end of right side wall 1510, be located on the main casing body 1340, on the following both sides, lower wall 1512, be located at equally on the main casing body 1340, following both sides and from last, outward extending second flange 1513 of the front end of lower wall 1512, and from a left side, extend downwards can insert the installation foot 1514 that is installed on the external circuit board the bottom of right side wall 1510, to sum up, that is: the left side of first shield shell 134, right both sides stretch out to be provided with and can guide first flange 1511 that first butt connector inserts; First shield shell 134 also is provided with the left and right sidewall 1510 that is positioned at its and arranged on left and right sides; First shield shell 134 also is provided with the upper and lower sidewall 1512 that is positioned at its upper and lower both sides; First shield shell, 134 upper and lower sidewalls 1512 stretch out to be provided with and can guide second flange 1513 that first butt connector inserts.Described first flange 1511 and second flange 1513 can be guided first butt connector and be inserted, and the front side of the front side of the front side of described first flange 1511 and second flange 1513 and hyoplastron 136 meets the industrywide standard distance of first connector 13 in the distance of fore-and-aft direction.Described first flange 1511 comprises that the front end from left and right sidewall 1510 outwards bends extended first connecting portion 1515 and continues outward extending first parallel portion 1516 from first connecting portion 1515.Described first parallel portion 1516 is in the perpendicular, and the front side of the front side surface of described first parallel portion 1516 and hyoplastron 136 meets the industrywide standard distance of first connector 13 in the distance of fore-and-aft direction.Described second flange 1513 comprises that the front end from upper and lower sidewall 1512 outwards bends extended second connecting portion 1517 and continues outward extending second parallel portion 1518 from second connecting portion 1517.Described second parallel portion 1518 is in the perpendicular, and the front side of the front side surface of described second parallel portion 1518 and hyoplastron 136 meets the industrywide standard distance of first connector 13 in the distance of fore-and-aft direction.Described inner shield 1341 comprises base portion 1342, extends back and be held in holding part 1343 on the left and right sidewall 1510 and the internal shield portion 1344 that extends back from the upper and lower both sides of base portion 1342 from the and arranged on left and right sides of base portion 1342.Described left and right sidewall 1510 is provided with port 1519, and described holding part 1343 is held in the port 1519.Described inner shield 1341 is held in left and right sidewall 1510 and is separated out upper and lower two first craft port 1345 of piling up setting, and described second craft port 113 is piled up the upside that is arranged at first craft port 1345.

When assembling first connector 13, earlier the first butt joint terminal 137 is shaped on the hyoplastron 136, this moment is the docking section 1320 and the installation portion 1321 (not shown) in same plane of the first butt joint terminal 137 respectively.Then hyoplastron 136 is mounted to second insulating body 130 from the place ahead of second insulating body 130, holding parts 1311 passes accepting groove 1501, hyoplastron main part 1310 parts are contained in link slot 1502, four conducting terminals of the following row of last USB terminal 132 pass four the first terminal holes 1500 respectively, and five conducting terminals of the row of going up of last USB terminal 132 pass second terminal hole 1503 respectively.This moment, the elastic arm 1312 of holding parts 1311 was contained in the accepting groove 1501, and grab 1313 is snapped in breach 1504 places.Then each conducting terminal is bent, make its rectangular shape; The design and installation mode of following hyoplastron 131 and following USB terminal 132 and last hyoplastron 131 and to go up USB terminal 132 identical.The 3rd, installation portion 1321 interference of the first butt joint terminal 137 are penetrated and are immobilizated in the 3rd terminal hole 1330, the 4th terminal hole 1331, the 5th terminal hole 1332, the 6th terminal groove 1333, and the end of installation portion 1321 extends beyond back pedestal 133 can be installed on the external circuit board.The 4th, main casing body 1340 is installed on second insulating body 130 gradually along guide rail structure 1505, then inner shield 1341 is installed on the main casing body 1340 from front to back, described holding part 1343 is held in the port 1519, and described two internal shield portions 1344 are held on overhang 1301 between the two.

Present embodiment first connector 13 is dual-port USB 3.0 connectors, and the design uses and is not limited to USB connector certainly, and first connector 13 also can be the connector of the craft port with other quantity.

See also Fig. 1 to Fig. 3 and shown in Figure 10, described exterior shield housing 16 comprises the procapsid 160 and the back casing 161 of mutual fastening.

Described procapsid 160 comprises shell antetheca 162 and the shell roof 163 that vertically extends backward from the upside of shell antetheca 162.Described shell antetheca 162 be provided be positioned at shell antetheca 162 outsides and perpendicular to the front surface 1620 of the first butt connector direction of insertion, be positioned at the and arranged on left and right sides of first shield shell 134 and accommodate first breach 1624 of first parallel portion 1516 and be positioned at the upper and lower both sides of first shield shell 134 and accommodate second breach 1625 of second parallel portion 1518.First parallel portion 1516 is parallel to described front surface 1620, the second parallel portion 1518 and is parallel to described front surface 1620, and the front end face 1314 that the front side of described hyoplastron 136 is provided with is parallel to front surface 1620.Shell second craft port 1622 that described front surface 1620 offers shell first craft port 1621 inserted for first butt connector, insert for second butt connector, the indication mouth 1623 that indicating device 14 is come out.The front side of first shield shell 134 is concordant with front surface 1620, makes the front side of front surface 1620 and hyoplastron 136 meet the industrywide standard distance of first connector 13 in the distance of fore-and-aft direction.For first shield shell 134, its and arranged on left and right sides and upper and lower both sides can not be provided with flange, and setting is arranged all in the present embodiment, first flange 1511 and second flange 1513 all are positioned at the front side of first shield shell 134, and the front side of first flange 1511 and the front side of second flange 1513 are all concordant with front surface 1620.Furthermore, the front side surface of the front side surface of first parallel portion 1516 and second parallel portion 1518 all with described front surface 1620 coplanes, certainly, first flange 1511 and second flange 1513 can have other designs, and first parallel portion 1516 and second parallel portion 1518 for example can be set.

Described back casing 161 comprises two side 1610 that is positioned at back casing 161 and arranged on left and right sides and the shell rear wall 1611 that connects two side 1610.

For the utility model stack-type electric connector 100, the front side of first shield shell 134 and the front side of hyoplastron 136 meet the industrywide standard distance of first connector 13 in the distance of fore-and-aft direction, the front side of first shield shell 134 is concordant with the front surface 1620 of exterior shield housing 16, make the front side of front surface 1620 and hyoplastron 136 also meet the industrywide standard distance of first connector 13 simultaneously in the distance of fore-and-aft direction, the front side that the utility model stack-type electric connector 100 has guaranteed front surface 1620 and hyoplastron 136 is consistent in the distance of fore-and-aft direction in the front side of the front side of the distance of fore-and-aft direction and internal shield housing 16 and hyoplastron 136, first butt connector can not influence the degree of depth of insertion because of the wall thickness of exterior shield housing 16 when inserting, being beneficial to the insertion that guarantees first butt connector puts in place, thereby make the design's stack-type electric connector 100 satisfy the real world applications requirement preferably, be beneficial to applying of the design's stack-type electric connector 100.

Claims (10)

1. stack-type electric connector, it can dock with one first butt connector, described stack-type electric connector comprises insulating body, be assembled in first connector on the insulating body and be located at insulating body and the exterior shield housing in first connector outside, first connector can insert to realize mutual butt joint from front to back for first butt connector, described first connector comprises first shield shell, what be contained in the hyoplastron in first shield shell and be located at that some on the hyoplastron can docks with first butt connector first docks terminals, the exterior shield housing is provided with the shell antetheca, the described shell antetheca outside is provided with the front surface perpendicular to the first butt connector direction of insertion, described front surface offers shell first craft port of inserting for first butt connector, it is characterized in that: the front side of first shield shell is concordant with front surface.

2. stack-type electric connector as claimed in claim 1 is characterized in that: the and arranged on left and right sides of first shield shell stretches out to be provided with and can guide first flange that first butt connector inserts, and the front side of first flange is concordant with front surface.

3. stack-type electric connector as claimed in claim 2, it is characterized in that: first shield shell also is provided with the left and right sidewall that is positioned at its and arranged on left and right sides, described first flange comprises from outside extended first connecting portion of bending and continue to stretch out and be parallel to first parallel portion, the front side surface of described first parallel portion and the described front surface coplane of described front surface from first connecting portion of left and right sidewall front end.

4. stack-type electric connector as claimed in claim 3 is characterized in that: the and arranged on left and right sides of described shell antetheca is provided with first breach of accommodating first parallel portion.

5. as each described stack-type electric connector in the claim 1 to 4, it is characterized in that: the upper and lower sidewall of first shield shell stretches out to be provided with and can guide second flange that first butt connector inserts, and the front side of second flange is concordant with front surface.

6. stack-type electric connector as claimed in claim 5, it is characterized in that: first shield shell also is provided with the upper and lower sidewall that is positioned at its upper and lower both sides, described second flange comprises from outside extended second connecting portion of bending and continue to stretch out and be parallel to second parallel portion, the front side surface of described second parallel portion and the described front surface coplane of described front surface from second connecting portion of upper and lower sidewall front end.

7. stack-type electric connector as claimed in claim 1, it is characterized in that: first shield shell comprises the main casing body, be held in the main casing body and extend into the inner shield of the first connector inside and first craft port that can supply first butt connector to insert, the main casing body comprises is located at a main casing body left side, the left side of right both sides, right side wall, from a left side, outward extending first flange of the front end of right side wall, be located on the main casing body, on the following both sides, downside reaches from last, outward extending second flange of the front end of lower wall, the front side of first flange and the front side of second flange are all concordant with front surface, and described inner shield is held in a left side, right side wall also is separated out, pile up two first craft port of setting down.

8. stack-type electric connector as claimed in claim 1 is characterized in that: the front side of described hyoplastron is provided with the front end face that is parallel to front surface.

9. stack-type electric connector as claimed in claim 1 is characterized in that: described first connector is USB 3.0 connectors, and the front side of first shield shell and the front side of hyoplastron meet the industrywide standard distance of first connector in the distance of fore-and-aft direction.

10. stack-type electric connector as claimed in claim 1, it is characterized in that: described stack-type electric connector also can insert for one second butt connector, and described insulating body is provided with second craft port of inserting and be arranged at the first connector upside for described second butt connector.

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