Source: https://patents.google.com/patent/CN102246358B/en
Timestamp: 2020-02-24 00:01:17
Document Index: 646543982

Matched Legal Cases: ['application No.12', 'art 23', 'art 23', 'art 24', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 24', 'art 23', 'art 23', 'art 23', 'art 23', 'art 27', 'art 27', 'art 23', 'art 23', 'art 23', 'art 23', 'arts 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art 23', 'art, 23']

CN102246358B - Connector assembly with strain relief - Google Patents
Connector assembly with strain relief Download PDF
CN102246358B
CN102246358B CN200980149740.9A CN200980149740A CN102246358B CN 102246358 B CN102246358 B CN 102246358B CN 200980149740 A CN200980149740 A CN 200980149740A CN 102246358 B CN102246358 B CN 102246358B
CN200980149740.9A
CN102246358A (en
亚当.P.泰勒
2008-12-12 Priority to US20160608P priority Critical
2008-12-12 Priority to US61/201,606 priority
2009-12-10 Priority to US12/635,476 priority patent/US8109789B2/en
2009-12-10 Priority to US12/635,476 priority
2009-12-11 Application filed by 泰科电子公司 filed Critical 泰科电子公司
2009-12-11 Priority to PCT/US2009/006519 priority patent/WO2010068291A1/en
2011-11-16 Publication of CN102246358A publication Critical patent/CN102246358A/en
2014-01-08 Publication of CN102246358B publication Critical patent/CN102246358B/en
The present invention relates to shielded connector, relate more particularly to the shielded connector with strain relief for high voltage applications.
The fuel cost increased and auto industry has been guided into to electronic and hybrid electric vehicle (HEV) reducing aspect environmental pollution the effort increased.A design aspect of these vehicles is consideration or the requirements for relatively high operating voltage.As a result, some such known vehicle and limiting-members design adapts to high operating voltage.
In some existing auto industrys application, the high voltage shielded connector is for being provided at the high voltage connectors and being installed to stable, machinery sealing between the head connector of metal module and being electrically connected to.Connector can provide stable shielding continuity by the braided cable shielding part that enters multicore cable from the supply high voltage and current to the shielding part connectors.For example, connector can need to guarantee the shielding part in connector and enter conductive path continuous between cable, in order to the shielding to electromagnetic interference is provided.
The rigidity that a problem of known connector is cable can be transmitted stretching, bending and the torsional strain of height to the electrical interconnection between braided cable shielding part and grafting shield member.For example, give significant strain on the interface between the cable movement of connector outside can the one or more parts at cable and connector.The strain meeting cause cable at interface from isolation of components, thereby the machinery and the electric property that jeopardize connector.
The solution of this problem provides by connector assembly described here, and this connector assembly comprises external shell, inner shell, collet chuck and keeper.External shell is longitudinal extension between front-end and back-end.Rear end has for receiving the opening of cable.Inner shell is positioned at external shell and comprises and the shielding part of cable electric coupling with the emission of restriction electromagnetic interference.The collet chuck externally rear end of housing is arranged in cable end piece.Collet chuck comprises the finger of longitudinal extension, and it configures junction cable.Keeper is fixed to the rear end of external shell and collet chuck is fixed between external shell and keeper.Keeper and collet chuck are redirected the strain be applied on cable away from the interface between shielding part and cable.
Now by example, describe the present invention with reference to the accompanying drawings, wherein:
Fig. 1 is the front perspective view according to the connector assembly of an embodiment of the present disclosure;
Fig. 2 is the back perspective view of the connector assembly shown in Fig. 1;
Fig. 3 is the partly decomposition view of the connector assembly of assembling shown in Fig. 1;
Fig. 4 is the decomposition view of the connector assembly shown in Fig. 1;
Fig. 5 is the front perspective view according to the collet chuck for the connector assembly shown in Fig. 1 of an embodiment of the present disclosure;
Fig. 6 is the back perspective view of the collet chuck shown in Fig. 5;
Fig. 7 is the back perspective view according to the keeper for the connector assembly shown in Fig. 1 of an embodiment;
Fig. 8 is the front perspective view of the keeper shown in Fig. 7;
Fig. 9 is the perspective view according to the first stage of the assemble sequence of the connector assembly shown in Fig. 1 of an embodiment;
Figure 10 is the viewgraph of cross-section of first stage of the assemble sequence of the connector assembly shown in Fig. 9;
Figure 11 is the perspective view according to the second stage of the assemble sequence of the connector assembly shown in Fig. 1 of an embodiment;
Figure 12 is the viewgraph of cross-section of second stage of the assemble sequence of the connector assembly shown in Figure 11;
Figure 13 is the perspective view according to the phase III of the assemble sequence of the connector assembly shown in Fig. 1 of an embodiment;
Figure 14 is the viewgraph of cross-section of phase III of the assemble sequence of the connector assembly shown in Figure 13.
Fig. 1 is the front perspective view according to the shielded connector assembly 1 of an embodiment of the present disclosure.Fig. 2 is the back perspective view of the connector assembly shown in Fig. 1.Fig. 3 is the partly decomposition diagram of the connector assembly 1 of assembling of Fig. 1.Connector assembly 1 can be called with the name that head connector is for example submitted on August 11st, 2009 the still undelegated U.S. Patent application No.12/539 of " Connector Assembly With Two Stage Two Stage Latch ", and disclosed head connector assembly coordinates in 261.Should ' the 261 whole disclosures of applying for be incorporated herein by reference.Connector assembly 1 and head connector can be fitted to each other with transmitted power between them.Connector assembly 1 can be the high voltage connector assembly.For example, connector assembly 1 can pass through head connector component passes electric current under the voltage up to about 600 volts.Connector assembly 1 can be under the voltage of at least about 42 volts delivered current.Perhaps, connector assembly 1 can be the assembly of delivered current under low-voltage more.Connector assembly 1 can be the coupling for land vehicle assembly.For example, connector assembly 1 can be for delivered current between the two or more electronic devices at automobile or module.Head connector can be installed to the module of the metal module (not shown) in automobile high voltage applications for example.
Connector assembly 1 comprises inner shell sub-component 2, external shell sub-component 3, spacer 41 (as shown in Figure 3), cable seal 42 (as shown in Figure 3), collet chuck 4 (as shown in Figure 3) and keeper 5.External shell sub-component 3 is longitudinal extension between front end 100 and rear end 102 (as shown in Figure 3).Front end 100 coordinates with matching connector head connector (not shown).Rear end 102 comprises the opening 104 that extends through external shell sub-component 3.
Spacer 41 is the main bodys that are positioned at external shell sub-component 3 inside.Spacer 41 is positioned between the shielding part 23,24 (as shown in Figure 4) and cable seal 42 of inner shell sub-component 2.Spacer 41 extends between opposite flank 302,304, and opening 306 extends through therebetween.Opening 306 sizes or yardstick are applicable to receiving cable 21 so that the cable 21 of inner shell sub-component 2 can pass through spacer 41.Spacer 41 can provide at the external shell sub-component 3 for cable seal 42 the front section that only stops forward.For example, but when cable seal 42 is loaded in external shell sub-component 3 spacer 41 junction cable seals 42, with restriction cable seal 42 can displacement how far in external shell sub-component 3.
Cable seal 42 comprises the elastic body 308 be arranged between spacer 41 and collet chuck 4.Cable seal 42 can provide and prevent that moisture and other pollutants from entering the seal of the inside of external shell sub-component 3 by the rear end 102 of external shell sub-component 3.Main body 308 is extended between opposite flank 310,312, and cable openings 314 extends through therebetween.The cable 21 of inner shell sub-component 2 can pass through cable seal 42 by cable openings 314.One or more post openings 316 are extensible by main body 308.In the embodiment shown, post opening 316 is opened around the peripheral intervals of cable openings 314, although the post opening 316 with the varying number shown in Fig. 3 and/or configuration can be provided.
Fig. 4 is the decomposition view of the connector assembly 1 of Fig. 1.Inner shell sub-component 2 comprises inner shell 22, upper shielding part 23, lower shielding part 24, cable 21, inside race 25 and outer collar 26.Inner shell 22 is between shielding part 23,24.Inner shell 22 can comprise insulating material or be comprised of insulating material.For example, inner shell 22 can be with one or more polymer moldings.Shielding part 23,24 can be that one or more parts of shielded connector assembly 1 make it exempt from the electromagnetic shield of electromagnetic interference.For example, shielding part 23,24 can be limited in the emission of the electromagnetic interference of shielding part 23,24 outsides.Shielding part 23,24 comprises one or more from the outward extending contact spring 231 of shielding part 23,24.For example, spring 231 can be towards the cantilever beam of shielding part 23,24 bias voltages when connector assembly 1 is loaded in the head connector assembly.In one embodiment, spring 231 engagement head connector assemblies are with electric coupling shielding part 23,24 and the head connector assembly shielding part of head connector assembly for example.Shielding part 23,24 combines to form roughly the electromagnetic shielding around inner shell 22.Perhaps, shielding part 23,24 can be set to by the conductive material single phosphor bodies that for example metal or metal alloy form.Inner shell 22 also comprises that slot 222 is to install inner shell sub-component 2 to the interim maintenance that shielding part 23 and lower shielding part 24 are provided before external shell sub-component 3.For example, shielding part 23,24 can comprise be received in slot 222 with fixed mask part 23,24 to inner shell 22 to projecting inward ridge 404,406.
Shielding part 23,24 has rear aperture 400,402 (as shown in Figure 4), and it is forming opening 300 (as shown in Figure 3) when shielding part 23,24 is couple to inner shell 22.Cable 21 is inserted through the opening 300 limited by rear aperture 400,402.Cable 21 comprises that longitudinal extension passes through one or more inner cores 200 (as shown in Figure 2) of cable 21.Core 200 can be can transferring electric power wire.In the embodiment shown, cable 21 is to have braided cable shielding part 27 multicore cable of (as shown in Figure 2).Each inner core 200 termination is crimped onto the end terminal 28 on every side of corresponding inner core 200.Inner shell 22 comprises the chamber 29 (as shown in Figure 1) for holding terminal 28.But contact or the terminal (not shown) of chamber 29 Receiver connector (not shown), connector assembly 1 coordinates with electric coupling head connector and connector assembly 1 with this contact or terminal.
As further illustrated in Fig. 4, external shell sub-component 3 comprises external shell 31, perimeter seal 32 and perimeter seal keeper 33.External shell 31 comprises the main body of the roughly cylinder for receiving inner shell sub-component 2.External shell 31 comprises the one or more outwardly protuberance 11 on the outer surface that is positioned at external shell 31.Perimeter seal 32 is centered around the neighboring extension that front end 100 is in the opening in external shell 31.Perimeter seal 32 can be to be squeezed in the front end 100 of external shell 31 and the elastic body between perimeter seal keeper 33.Perimeter seal keeper 33 can be incorporated into external shell 31 with fixing perimeter seal 32 externally in the front end 100 of housing 31.Perimeter seal 32 can prevent that moisture and other pollutants from entering into the inside of external shell 31.
In and outer collar 25,26 can comprise conductive material for example metal or metal alloy, or for example metal or metal alloy form by conductive material.Inside race 25 can be arranged on cable 21 so that cable 21 extends through inside race 25.Inside race 25 can be arranged on the expose portion 408 of braided cable shielding part 27.Outer collar 26 be arranged on inside race 25 and can rear aperture 400,402 places or near be crimped onto on shielding part 23,24.Inside race 25 and outer collar 26 mechanically couple and fixed mask part 23,24 and cable shield 27.Perhaps, outer and/or inside race 26,25 can provide the conductive path between shielding part 23,24 and cable shield 27.For example, inside race 25 can the electric coupling cable shield 27 with outer collar 26, and outer collar 26 and shielding part 23,24 electric couplings.Cable shield 27 can engage with the electricity of reference point electrical ground with via lasso 25,25 electric coupling shielding parts 23,24 and reference point electrical ground.Shielding part 23,24 can exempt from electromagnetic interference via this electric coupling shielding inner shell 22 with reference point electrical ground.As described here, the motion of cable 21 can the connection between cable shield 27 and one or more shielding part 23,24 in stress application, and/or can be so that shielding part 23,24 be separated from one another.Collet chuck 4 can be fixed to cable 21 and separate cable shield 27 to prevent such stress from shielding part 23,24 outside the coupling of cable shield 27 and shielding part 23,24, and/or prevents that shielding part 23,24 from moving away from each other, separate or interrupting.
Fig. 5 is the front perspective view according to the collet chuck 4 of an embodiment of the present disclosure, and Fig. 6 is the back perspective view according to the collet chuck 4 of an embodiment of the present disclosure.Collet chuck 4 comprises the main body 43 on the plane with the central opening 431 extended through wherein.Main body 43 is planes, because the thickness of main body 43 is significantly less than the yardstick in the main body 43 of at least two other directions of the thickness perpendicular to main body 43.The thickness of main body 43 extends between front side 432 and rear side 433.When being assembled into external shell sub-component 3 when (as shown in Figure 1), the front side 432 of collet chuck 4 is in the face of the inside (as shown in Figure 4) of external shell 31, and rear side 433 is back to the inside of external shell 31.
Main body 43 size and dimensions are applicable to coordinate with spacer 41 (as shown in Figure 3), cable seal 42 (as shown in Figure 3) and keeper 5 (as shown in Figure 2).For example, main body 43 can be surrounded spacer 41 and cable seal 42 externally in housing 31 (as shown in Figure 3), is engaged between keeper 5 and external shell 31 simultaneously.One or more posts 434 are 432 extensions from front side.When collet chuck 4 is assembled into external shell 31, post 434 432 stretches out forward towards the inside of external shell 31 from front side.Post 434 can size, shape is applicable to and locate to be engaged in corresponding of post opening 316 (as shown in Figure 3) of cable seal 42 (as shown in Figure 3).Post 434 may be received in post opening 316 with and alignment collet chuck 4 directed about cable seal 42.In addition, post 434 may be received in post opening 316 and locates with respect to cable seal 42 with assurance collet chuck 4 so that cable seal 42 is by roughly homogeneous extruding of collet chuck 4 when assembly and connection device assembly 1.Perhaps, different parts can be for and/or alignment collet chuck 4 directed about cable seal 42.For example, for example protuberance, fritter or other extension can be for substituting post 434 or being used in combination with post 434 for dissimilar projection.
One or more finger 435 extends back from rear side 433.Finger 435 is around the periphery location of opening 431.In the embodiment shown, finger 435 is to extend to the flexible cantilever beam of corresponding outer end 500 from main body 43.Finger 435 can be towards inside warpage and outside warpage each other away from each other.For example, when collet chuck 4 is arranged on cable 21, finger 435 can be away from each other outwards warpage with on the outside or oversheath that are arranged on cable 21 (as shown in Figure 3).
Finger 435 comprises inner surface 436 (as shown in Figure 5) and relative outer surface 437 (as shown in Figure 6).In the embodiment shown, inner surface 436 is jagged.For example, inner surface 436 can be included in the jagged or ladder-step edge 438 that extends across finger 435 about the horizontal direction of the elongated direction of finger 435.Edge 438 junction cables 21 are to keep collet chuck 4 on cable 21.For example, when finger 435 is squeezed on cable 21, the tooth that edge 438 can provide the oversheath of interlock junction cable 21 or surface with fixing collet chuck 4 to cable 21.Shown in embodiment, finger 435 comprises along the rib 440 of the rising of outer surface 437 longitudinal extensions equally as shown.Rib 440 limits along the slot 502 of the depression of the outer surface longitudinal extension of finger 435.Finger 435 is separated from each other by the air gap 504 between the outward flange in finger 435.Finger 435 comprises outside ramp surface 441 and internal ramp surface 439 on the external end that is arranged in finger 435 or free terminal 500.Internal ramp surface 439 is conducive to collet chuck 4 and is assembled on cable 21 (as shown in Figure 2).Outside ramp surface 441 coordinates to push finger 435 to cable 21 with the inner surface 800 (as shown in Figure 8) on the surface 525 (as shown in Figure 7) of inclination on keeper 5 (as shown in Figure 1).
Fig. 7 and 8 is the perspective views according to the keeper 5 of an embodiment of the present disclosure.Keeper 5 is longitudinal extension between front end 700 and rear end 702, and opening 704 extends through wherein.Keeper 5 comprises crimping section 52 (as shown in Figure 7) and shaded portions 53.Shaded portions 53 between crimping section 52 and front-end and back-end 700,702 intersects.In the embodiment shown, crimping section 52 702 extends to shaded portions 53 from rear end, and shaded portions 53 extends to crimping section 52 from front end 700.
Crimping section 52 comprises inner surface 521 and relative outer surface 522 (as shown in Figure 7).One or more ribs 523 are along outer surface 522 longitudinal extensions.Rib 523 increases material and thinks that to crimping section 52 crimping section 52 provides extra intensity or rigidity, to prevent bending or the side warpage to side.One or more stability ribs 524 are along inner surface 521 longitudinal extensions of crimping section 52.Stability ribs 524 engages the finger 435 (as shown in Figure 5) of collet chuck 4 (as shown in Figure 3) to stablize collet chuck 4.For example, stability ribs 524 can engage slot 502 (as shown in Figure 5) and/or be arranged in air gap 504 (as shown in Figure 5) side with engagement fingers 435.Joint between stability ribs 524 and finger 435 can prevent when for example finger 435 rotations or rotational motion or warpage when with respect to collet chuck 4 rotation or distortion cable 21 (as shown in Figure 2), distorting stress being applied to cable 21.
Crimping section 52 comprises the sloping portion 525 with outer surface 522 and inner surface 800.Sloping portion 525 comprises and coordinating with the outside ramp surface 441 (as shown in Figure 5) of the finger 435 (as shown in Figure 5) of collet chuck 4 (as shown in Figure 3) with extruding finger 435 to cable 21 (as shown in Figure 2).For example, keeper 5 can be positioned on collet chuck 4 so that finger 435 slides into rear portion along inner surface 800 from front portion, and by the inside bias voltage of inner surface 800 so that finger 435 is expressed on cable 21.
The shaded portions 53 of keeper 5 is engaged on the rear end 102 (as shown in Figure 3) of external shell sub-component 3 (as shown in Figure 1).In the embodiment shown, shaded portions 53 comprises the opening 706 that extends through shaded portions 53.The protuberance 311 (as shown in Figure 4) that opening 706 can receive external shell sub-component 3 with fixing keeper 5 to the external shell 31 (as shown in Figure 4) of external shell sub-component 3.Once be fixed to external shell 31, keeper 5 around the rear end 102 (as shown in Figure 3) of external shell 31 to be centered around collet chuck 4 (as shown in Figure 3), cable seal 42 (as shown in Figure 3) and the spacer 41 (as shown in Figure 3) of there.
Fig. 9-14 illustrate the step to connector assembly 1 according to the assembling collet chuck 4 of an embodiment of the present disclosure and keeper 5.Fig. 9 is the perspective view to the connector assembly 1 in the first stage of connector assembly 1 at assembling collet chuck 4 and keeper 5.Figure 10 is the viewgraph of cross-section of connector assembly 1 as shown in Figure 9.Interior sub-component 2 is arranged in outer sub-component 3.In the first stage, cable 21 slides through the opening 314 of cable seal 42 from the front side 310 of cable seal 42, and slides through the central opening 431 of collet chuck 4 from the front side 432 of collet chuck 4.
Figure 11 is the perspective view to the connector assembly 1 in the second stage of connector assembly 1 at assembling collet chuck 4 and keeper 5.Figure 12 is the viewgraph of cross-section of connector assembly 1 as shown in figure 11.In second stage, collet chuck 4 towards external shell sub-component 3 move or slip until the post 434 (as shown in Figure 5) of collet chuck 4 receive in the respective openings 316 (as shown in Figure 3) in cable seal 42.The main body 43 of collet chuck 4 coordinates the rear end 102 of external shell sub-component 3.As shown in figure 12, collet chuck 4 coordinates rear end 102 with the inner shell 22 (as shown in Figure 4) in cable seal 42, spacer 41, shielding part 23,24 (as shown in Figure 4) and external shell sub-component 3.Although do not illustrate at Figure 12, in the second stage of assembling, the finger 435 of collet chuck 4 can be away from each other and the outside bias voltage of cable 21.
Figure 13 is the perspective view to the connector assembly 1 in the phase III of connector assembly 1 at assembling collet chuck 4 and keeper 5.Figure 14 is the viewgraph of cross-section of connector assembly 1 as shown in figure 13.The phase III of assembly and connection device assembly 1 can be the final stage of assembling.In the phase III, keeper 5 slides on cable 21 and collet chuck 4.When keeper 5 slides on collet chuck 4, the stability ribs 524 (as shown in Figure 7) of keeper 5 can be positioned between the rib 440 (as shown in Figure 5) on the finger 435 of collet chuck 4, or in the slot 502 (as shown in Figure 5) limited by rib 440.Perhaps, stability ribs 524 can be arranged between finger 435 in air gap 504 (as shown in Figure 5).The inner surface 800 of keeper 5 with respect to the finger 435 of collet chuck 4 and on finger 435, move so that collet chuck 4 by cable 21.Inclined surface 525 is inwardly towards bias voltage finger 435 each other so that finger 435 is expressed on cable 21.Finger 435 can be pressed on cable 21 so that jagged edge 438 (as shown in Figure 6) junction cable 21 of finger 435 with fixing collet chuck 4 to cable 21.
The protuberance 311 that opening in keeper 5 706 receives external shell sub-components 3 with fixing keeper 5 to the rear end 102 of external shell sub-component 3.Keeper 5 externally in housing sub-component 3, allows cable 21 extend back or stretch out by keeper 5 around collet chuck 4, cable seal 42, spacer 41 and inner shell sub-component 2 simultaneously.
In one embodiment, once keeper 5 is fixed to external shell sub-component 3, outside connector assembly 1 and with respect to the motion of the cable 21 of connector assembly 1 or cause strain to be applied on the interface between one or more other parts of cable 21 and connector assembly 1.For example, apply strain on the interface of the part stent that, the athletic meeting of the cable outside connector assembly 1 21 joins at cable 21 and cable 21.Alternative strain is applied to the interface between the shielding part 23,24 (as shown in Figure 4) of cable 21 and inner shell sub-component 2, collet chuck 4 and/or keeper 5 can limit cable 21 outside the interface between cable 21 and shielding part 23,24 and away from the motion of this interface to be redirected strain away from described interface.For example, the part that is positioned at the outer cable 21 of connector assembly 1 allows with respect to connector assembly 1 motion, and the part of the crimping section at keeper 5 52 in connector assembly 1 and the cable 21 between shielding part 23,24 is limited with respect to connector assembly 1 motion simultaneously.Result, the strain that interface between other parts of cable 21 and connector assembly 1 applies is by away from inner shell sub-component 2, with shielding part, 23,24 isolation also can be redirected to relative hard collet chuck 4 and/or keeper 5, and strain can not make cable 21 separate from connector assembly 1 there.
The external shell (31) of longitudinal extension between front end (100) and rear end (102), described rear end has the opening (104) for receiving cable (21);
Be positioned at the inner shell (22) of described external shell (31), this inner shell has and the shielding part (23,24) of described cable (21) electric coupling with the emission of restriction electromagnetic interference;
The collet chuck (4) of arranging around described cable (21) in the described rear end (102) of described external shell (31), described collet chuck (4) comprises that configuration engages the finger (435) of the longitudinal extension of described cable (21); Know
Be fixed to the keeper (5) of the described rear end (102) of described external shell (31), the fixing described collet chuck (4) of described keeper (5) is between described external shell (31) and described keeper (5), wherein said keeper (5) and described collet chuck (4) are redirected the strain be applied on described cable (21) away from the interface between described shielding part (23,24) and described cable (21).
2. connector assembly as claimed in claim 1, wherein, the described finger (435) of described collet chuck (4) comprises and engages and fix the jagged inward flange (438) of described collet chuck (4) to described cable (21).
3. connector assembly as claimed in claim 1, further comprise the cable seal (42) on the described rear end (102) that is arranged in the described external shell (31) between described external shell (31) and described collet chuck (4), described cable seal (42) is pushed and is sealed the described rear end (102) of described external shell (31) by described collet chuck (4).
4. connector assembly as claimed in claim 3, wherein, described cable seal (42) comprises elastic body (308), this elastic body has and extends through wherein with the cable openings (314) that receives described cable (21) and the post opening (316) extended internally, and described collet chuck (4) comprises the post (434) protruded forward in the described post opening (316) that receives described cable seal (42).
5. connector assembly as claimed in claim 1, wherein, in the time of in described cable (21) is loaded into the described collet chuck (4) between described finger (435), described finger (435) is warpage outwards.
6. connector assembly as claimed in claim 1, wherein, described keeper (5) comprises that the described finger (435) of pushing described collet chuck (4) when at described collet chuck (5) the described keeper of upper assembling (5) arrives the inner surface on described cable (21).
7. connector assembly as claimed in claim 1, wherein, described keeper (5) comprises the rib (524) of the longitudinal extension of arranging along the inner surface (521) of described keeper (5), and described rib (524) engages the described finger (435) of described collet chuck (4) and reduce the rotational motion of described finger (435) when distorting stress is applied to described cable (21).
8. connector assembly as claimed in claim 1, wherein, described collet chuck (4) comprises the main body (43) with the plane that extends through opening wherein, this opening size is applicable to receiving described cable (21).
9. connector assembly as claimed in claim 8, further comprise the cable seal (42) in the described rear end (102) that is arranged in described external shell (31), wherein said collet chuck (4) comprises the finger (435) that engages the cable (21) protruded from a side of the main body (43) on described plane and engages from the post (434) of the cable seal (42) of the relative opposite side protrusion of the main body (43) on described plane.
CN200980149740.9A 2008-12-12 2009-12-11 Connector assembly with strain relief CN102246358B (en)
US20160608P true 2008-12-12 2008-12-12
US61/201,606 2008-12-12
US12/635,476 US8109789B2 (en) 2008-12-12 2009-12-10 Connector assembly with strain relief
US12/635,476 2009-12-10
PCT/US2009/006519 WO2010068291A1 (en) 2008-12-12 2009-12-11 Connector assembly with strain relief
CN102246358A CN102246358A (en) 2011-11-16
CN102246358B true CN102246358B (en) 2014-01-08
ID=42241065
CN200980149740.9A CN102246358B (en) 2008-12-12 2009-12-11 Connector assembly with strain relief
US (1) US8109789B2 (en)
EP (1) EP2377204B1 (en)
JP (1) JP5557259B2 (en)
KR (1) KR101209323B1 (en)
CN (1) CN102246358B (en)
WO (1) WO2010068291A1 (en)
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2009-12-10 US US12/635,476 patent/US8109789B2/en active Active
2009-12-11 JP JP2011540706A patent/JP5557259B2/en active Active
2009-12-11 KR KR1020117012199A patent/KR101209323B1/en active IP Right Grant
2009-12-11 CN CN200980149740.9A patent/CN102246358B/en active IP Right Grant
2009-12-11 WO PCT/US2009/006519 patent/WO2010068291A1/en active Application Filing
2009-12-11 EP EP09799761.3A patent/EP2377204B1/en active Active
EP2377204A1 (en) 2011-10-19
WO2010068291A1 (en) 2010-06-17
KR20110090970A (en) 2011-08-10
JP2012511804A (en) 2012-05-24
US8109789B2 (en) 2012-02-07
KR101209323B1 (en) 2012-12-06
US20100151721A1 (en) 2010-06-17
JP5557259B2 (en) 2014-07-23
CN102246358A (en) 2011-11-16
EP2377204B1 (en) 2015-12-02