Source: https://patents.google.com/patent/CN102893459A/en
Timestamp: 2020-03-29 10:47:10
Document Index: 673753141

Matched Legal Cases: ['art 21', 'art 21', 'art 21', 'art 27', 'art 27', 'art 27', 'art 21', 'art 43', 'art 43', 'art 43', 'art 43', 'art 43', 'arts 51', 'arts 51', 'arts 51', 'application No.2010']

CN102893459A - Shield connector - Google Patents
CN102893459A
CN102893459A CN2011800237238A CN201180023723A CN102893459A CN 102893459 A CN102893459 A CN 102893459A CN 2011800237238 A CN2011800237238 A CN 2011800237238A CN 201180023723 A CN201180023723 A CN 201180023723A CN 102893459 A CN102893459 A CN 102893459A
CN2011800237238A
CN102893459B (en
The present invention relates to a kind of shielding wire is connected to the shielded connector of objective body, and more specifically, relate to a kind of for the shielded connector of shielding wire grounding connection to the vehicle body of motor vehicles.
For example, for the electric wire that uses in the wire harness on being installed on vehicle, use to prevent the shielding wire that affected by electromagnetic external noise.And this shielding wire prevents that electromagnetic radiated noise from leaking into the outside from electric wire.The heart yearn of described shielding wire is by the screen shielding such as knit unit.This screen is electrically connected to the common ground section in the vehicle, and perhaps grounding connection is exactly the objective body of common ground section to itself.
As the shielded connector that is used for connecting shielding wire, the traditional shielded connector shown in known Figure 13.In this tradition shielded connector, shielding wire 2 is inserted in the outer cover 1, the first seal member 3 is attached to outer cover 1, then, shield member 4 is attached to outer cover 1, further, the second seal member 5 is installed on the shield member 4, the screen 6 of shielding wire 2 is folded back onto shield member 4, and then, makes screen 6 and 7 crimping of shield member 4 conductively-closed sleeves to have grounding connection (seeing patented technology document 1).
Because traditional shielded connector comprises the first seal member 3 of the part between closed shield electric wire 2 and the shield member 4 and the second seal member 5 of the part between closed shield connector and the attaching hole 10, so the number of parts increases, thereby shielded connector is enlarged.Therefore, thus the attaching hole 10 that may be used in the attaching shielded connector enlarges the infringement shielding propertiess.
In addition, in above-mentioned shielded connector, another parts such as packing ring 9 are arranged on position near the pressure contact portion 8a of the terminal 8 of the heart yearn 2a that is connected in shielding wire 2 owing to be arranged on shield member 4 in the section of folding back of screen 6, so need to be set between the pressure contact portion 8a of shield member 4 and terminal 8.Therefore, thus the number of parts further increases and causes high cost.
In this case, separate to guarantee creepage distance (creeping distance) in order to save another parts such as packing ring 9, it is contemplated that the pressure contact portion 8a that makes terminal 8 from shield member 4.Yet when pressure contact portion 8a was separated from shield member 4, the device that terminal 8 is connected to also needed to separate from the attachment positions of shielded connector.Therefore, caused the whole part of timer extended.
Therefore a favourable aspect of the present invention is to provide a kind of shielded connector, and this shielded connector can obtain high shielding properties and high sealing performance and not enlarge shielded connector and increase cost.
According to an aspect of the present invention, shielding wire is connected to this shielded connector; This shielding wire is included in internal jacket, screen and the external jacket that the periphery of heart yearn sets gradually; Described shielded connector is attached to the ground connection objective body so that described shielding wire is guided to the patchhole that forms in described objective body, and with electric current from described screen conductivity to described objective body; Described shielded connector comprises:
Outer cover, this outer cover has tubular form so that described shielding wire is inserted in this outer cover, thereby and this outer cover be attached to described objective body and be communicated with the described patchhole of described objective body;
Shield terminal, this shield terminal have tubular form, are inner periphery side conductivity, that be attached to described outer cover, and this shield terminal conducts in described objective body and described screen; With
Seal member, the sealing parts have tubular form, and be arranged between the inner rim of described patchhole and the described shielding wire and between described shield terminal and the described shielding wire, and the sealing parts are configured to seal the part between the described neighboring of the inner rim of part between the neighboring of the described inner rim of described patchhole and described shielding wire and described shield terminal and described shielding wire.
This shielded connector can so be disposed, so that: the endless member that is formed from a resin is arranged in the described seal member integratedly, and described endless member engages with described shield terminal.
Described endless member has the proper circle forming portion, and this proper circle forming portion is configured to make the profile of the described shielding wire that is inserted form proper circle in the pressure mode.
In having the shielded connector of structure of the present invention, owing to be provided with the tubulose seal member of the part between the neighboring of the inner rim of part between the neighboring of the inner rim of the patchhole of target seal body simultaneously and shielding wire and shield terminal and shielding wire, so compare with the situation of the seal member that is provided for respectively sealing above-mentioned part, by reducing the number of member, can further reduce cost.In addition, thus can eliminate the patchhole that uses a plurality of seal members to enlarge objective body and the inconvenience of infringement shielding properties.
In addition, during the heart yearn that in terminal is fixed to end at shielding wire, exposes, the individual components of being made by insulating material is not arranged between shield terminal and the terminal, shield terminal does not significantly separate from terminal yet, thereby seal member can be guaranteed the insulating properties between shield terminal and the terminal and can improve shielding properties.Therefore, can be suppressed owing to the cost increase that parts independently cause is set, thereby and can eliminate shield terminal and significantly separate from terminal and cause the inconvenience of magnifying.
In having the shielded connector of structure of the present invention, owing to be formed from a resin and engage with shield terminal with endless member that seal member forms, can be maintained so seal member can be maintained at the excellent sealing state of assigned position place and seal member.
In having the shielded connector of structure of the present invention, because the endless member that engages with shield terminal is arranged on seal member in the mid portion of axial direction, so seal member can be maintained at the assigned position place and can obtain good sealing state with good balance.
In having the shielded connector of structure of the present invention, owing to shielding wire is inserted in the seal member, so even when shielding wire is out of shape a little, the profile of shielding wire also can be constituted proper circle by the proper circle forming portion of endless member.Therefore, can so that seal member form close contact and obtain good sealing state with the neighboring of good balance and shielding wire.
According to the present invention, can provide can be such shielded connector: it obtains high shielding properties and high sealing performance, and does not amplify shielded connector and increase cost.
Fig. 1 is the cross sectional view according to the shielded connector of the first embodiment;
Fig. 2 is the decomposition diagram according to the shielded connector of the first embodiment;
Fig. 3 A is the perspective view that the shield terminal that forms shielded connector is shown;
Fig. 3 B is the cross-sectional perspective view that the shield terminal that forms shielded connector is shown;
Fig. 4 is a part illustrated, forms the shield terminal of shielded connector with the cross section perspective view;
Fig. 5 A is the perspective view that the seal member that forms shielded connector is shown;
Fig. 5 B is the cross-sectional perspective view that the seal member that forms shielded connector is shown;
Fig. 6 is the cross sectional view that forms the seal member of shielded connector;
Fig. 7 A illustrates the perspective view that is arranged on the endless member in the seal member;
Fig. 7 B illustrates the cross-sectional perspective view that is arranged on the endless member in the seal member;
Fig. 8 is the cross sectional view that part engagement state, shielded connector of the recess of shield terminal and seal member and protuberance is shown;
Fig. 9 is the cross sectional view according to the shielded connector of the second embodiment;
Figure 10 is the cross sectional view that forms the seal member of shielded connector;
Figure 11 A illustrates perspective view seal member, that see from the inserting side that forms shielded connector;
Figure 11 B illustrates cross-sectional perspective view seal member, that see from the inserting side that forms shielded connector;
Figure 12 A illustrates the perspective view seal member that forms shielded connector, that see from the attaching side;
Figure 12 B illustrates the cross-sectional perspective view seal member that forms shielded connector, that see from the attaching side;
Figure 13 is the cross sectional view for the conventional example of explaining shielded connector.
The 13a patchhole
At first, with the shielded connector that is described below according to the first embodiment.
Fig. 1 is the cross sectional view according to the shielded connector of the first embodiment.Fig. 2 is the decomposition diagram according to the shielded connector of the first embodiment.
As shown in Figures 1 and 2, shielded connector 11 is attached to the shell (objective body) 13 such as the device 12 of motor unit that is arranged on such as in the vehicle of motor vehicles, guides to described device 12 with the shielding wire 14 that will form wire harness from the patchhole 13a that forms shell 13.
Shielding wire 14 has structure like this: the internal jacket 16 that heart yearn 15 is used as insulating material coats, the screen 17 that internal jacket 16 is used as the knit unit of net form electric conducting material coats, and screen 17 is used as the sheath coating of the external jacket 18 of insulating material.Then, in shielding wire 14, near utilize cutter cutting external jacket 18 shielded connector 11 a part to be exposing screen 17, and in addition, utilizes cutter cutting screen 17 so that screen 17 has specific length.Therefore, internal jacket 16 is exposed.Then, in shielding wire 14, with crimp type terminal 19 crimping be connected to the heart yearn 15 that sheath 16 internally exposes, and the pressure contact portion of crimp type terminal 19 is coated with heat-shrink tube 20.
Shielded connector 11 comprises outer cover 21.Outer cover 21 is by making and form cylindric such as the insulating material of synthetic resin.Shielding wire 14 is inserted in the outer cover 21.Outer cover 21 has and is set as the distolateral and to be set as another of cable inserting side 21B distolateral of attaching side 21A.In outer cover 21, attaching side 21A is attached to the shell 13 of device 2 and shielding wire 14 is inserted from cable inserting side 21B.
Near the attaching side 21A of outer cover 21, form the flange part 21a that is projected into the periphery avris, and strength increase.The attaching side 21A of flange part 21a forms cyclic lug 21b.Flange part 21a has mountain shape attaching sheet 23 in a part, and attaching hole 24 probably is formed on the central part office of attaching sheet 23.Fastened tools such as bolt can be inserted in the attaching hole 24.Insert bolt in the attaching hole 24 and be screwed among the screwed hole 13b that in device 2 shell 13, forms, so that outer cover 21 is fastened and be fixed to shell 13 with the stator 35 of shield terminal 31 described later.
In the cyclic lug 21b of the attaching side 21A of outer cover 21, in inner periphery side, form stage portion 25.The inner seal 26 that forms ring-type is mounted to stage portion 25.Sealed by inner seal 26 at outer cover 21 and the part between following shield terminal 31.
In addition, in outer cover 21, in the inner rim in the axial direction mid portion, be formed with at the outstanding cyclic rib 21c of circumferential direction.In the inner periphery side of outer cover 21, the cable inserting side 21B of cyclic rib 21c forms seal accommodation section 21d.
Then, linear sealing part 27 is assembled to seal accommodation section 21d.Sealed by the linear sealing part 27 in the 21B of the cable inserting side of outer cover 21 in the part between shielding wire 14 and the outer cover 21.
Rubber stopper 28 is attached to the cable inserting side 21B of outer cover 21.This rubber stopper 28 comprises: tubular plug main body 28a, shielding wire 14 are inserted into this tubular plug main body 28a; With the 28b of covering section, this 28b of covering section integrated setting and should the 28b of covering section covers the cable inserting side 21B of outer cover 21 in the periphery avris of plug main body 28a.So, further sealed by rubber stopper 28 as the inserting side 21B of the rear end of outer cover 21, and prevented that linear sealing part 27 from skidding off.
Shield terminal 31 is attached to the attaching side 21A of outer cover 21.Form shield terminal 31 by the pressure processing conductive metal sheet.As shown in Fig. 3 A and Fig. 3 B, shield terminal 31 comprises cyclic lug 32, and this cyclic lug 32 is bent into covering cyclic lug 21b and the inner seal 26 of the attaching side 21A that covers flange part 21a.
In addition, the cyclic lug 32 of shield terminal 31 has: form to the inner periphery side of the side-prominent ring-type copulational protuberance 33 of shell 13.As shown in FIG. 4, in ring-type copulational protuberance 33, be formed on the relative position place in the inner periphery surface of described ring-type copulational protuberance 33 to two outstanding copulational protuberances 34 of central side.
In the cyclic lug 32 of shield terminal 31, mountain shape stator 35 is formed on the part of neighboring of described cyclic lug 32.Described stator 35 forms with the attaching sheet 23 essentially identical profiles with outer cover 21.In stator 35, be formed with attaching hole 36, this attaching hole 36 has and the attaching hole 24 essentially identical shape and size that are arranged in the attaching sheet 23.Then, the attaching sheet 23 of outer cover 21 is overlapped on the stator 35 of shield terminal 31 bolt that is made of metal or screw were inserted and be fastened to shell 13 by the attaching hole 24 and 36 that is interconnected screwed hole 13b.Therefore, the stator 35 of shield terminal 31 is fixed to the shell 13 of device 12 with the attaching sheet 23 of outer cover 21.Therefore, shield terminal 31 conducts in the shell 13 of device 12.
In addition, shield terminal 31 comprises in the inner periphery of cyclic lug 32: tube 37, and this tube 37 continues abreast with the center line of outer cover 21; With tubulose pressure contact portion 39, this tubulose pressure contact portion 39 is continuous with described tube 37 abreast via the center line of stage portion 38 and outer cover 21, and the diameter of this tubulose pressure contact portion 39 is less than the diameter of tube 37.
Open the end of this tubulose pressure contact portion 39.When shield terminal 31 was attached to outer cover 21, the end of described pressure contact portion 39 was positioned near the cyclic rib 21c.
In shield terminal 31, shroud sleeve 41 is arranged in the inner periphery side of this shield terminal 31.Shroud sleeve 41 is become by conducting metal tubulose system and forms by extrusion process.The internal diameter of shroud sleeve 41 equals the external diameter of the external jacket 18 of shielding wire 14 substantially.Correspondingly, the internal diameter of shroud sleeve has and the outside dimension that is inserted into the shielding wire 14 in the outer cover 21, that is, and and the neighboring of external jacket 18, the size of formation close contact.Shroud sleeve 41 comprises: tube 42, and this tube 42 has same diameter in whole length; With reduced part 43, this reduced part 43 is crooked with the ground that probably meets at right angles, the center of shroud sleeve 41 in the end of tube 42.In reduced part 43, form smooth arc-shaped surface with the outer surface of the continuous corner part of tube 42.
Then, the tube 42 of shroud sleeve 41 is inserted into the neighboring of external jacket 18, so that the reduced part 43 of this shroud sleeve 41 engages with the cut end of the external jacket 18 of shielding wire 14.On the other hand, on the tube 42 of the shroud sleeve 41 that covers external jacket 18, thereby will be by cutter screen 17 that cut and be retained, that have specific length fold back and dwindle part 43 from outside covering diameter.
To on tube 42, be inserted in the pressure contact portion 39 of shield terminal 31 by backfolding screen 17.Pressure contact portion 39 applies crimp force from the neighboring of this pressure contact portion 39, thereby pressure contact portion 39 will comprise that by screen 17 and shroud sleeve 41 the maintenance shielding wire 14 of external jacket 18, screen 17, internal jacket 16 and heart yearn 15 remains in the outer cover 12 integratedly.
In shell 13 sides of shield terminal 31, be provided with the seal member 51 that forms with tubular form.Sealing parts 51 are formed such as rubber by elastomeric material.As shown in Fig. 5 A and Fig. 5 B and Fig. 6, seal member 51 has two annular seal sections 52 and 53, and these two annular seal sections 52 and 53 thickness are large.Sealing 52 has little by little outwards outstanding lip 52a and the 52b of perimeter sides and inner periphery side.Similar with sealing 52, sealing 53 also has little by little outwards outstanding lip 53a and the 53b of perimeter sides and inner periphery side.
Seal member 51 so that as in the axial direction mid portion, the part between sealing 52 and 53, form compressed 54 that thickness reduces.In forming mid portion compressed 54, seal member 51, be provided with integratedly endless member 55.Seal member 51 forms symmetrically about described mid portion described endless member 55, on the axial direction being set as boundary.
Endless member 55 utilizes the synthetic resin such as plastics to form.As shown in Fig. 7 A and the 7B, in the periphery avris of endless member 55, form engagement grooves 56 along circumferencial direction.In addition, in the inner periphery surface side of endless member 55, form rib 57 along circumferencial direction.In rib 57, form a plurality of hole 57a of section along circumferential direction with predetermined distance.The rubber that forms seal member 51 enters the 57a of hole section.Therefore, endless member 55 is embedded in the rubber that forms seal member 51 securely.In addition, in endless member 55, the outer peripheral portion with engagement grooves 56 is not embedded in the seal member 51 but is exposed.
In seal member 51, sealing 52 is disposed between the internal jacket 16 of the patchhole 13a of shell 13 and shielding wire 14, so that the lip 52a of sealing 52 can form with the inner periphery surface of patchhole 13a close contact and so that the lip 52b of sealing 52 can form close contact with the outer periphery surface of internal jacket 16.Therefore, sealing 52 sealings of the sealed parts 51 of part between the internal jacket 16 of the patchhole 13a of shell 13 and shielding wire 14.
In addition, in seal member 51, sealing 53 is disposed between the internal jacket 16 of the tube 37 of shield terminal 31 and shielding wire 14, so that the lip 53a of sealing 53 can form with the inner periphery surface of tube 37 close contact and so that the lip 53b of sealing 53 can form close contact with the outer periphery surface of internal jacket 16.Therefore, sealing 53 sealings of the sealed parts 51 of part between the internal jacket 16 of the tube 37 of shield terminal 31 and shielding wire 14.
By this way, seal member 51 has part between the neighboring of internal jacket 16 of the inner rim that is sealed in simultaneously patchhole 13a and shielding wire 14 and the function of the part between the neighboring of the internal jacket 16 of the inner rim of the tube 37 of shield terminal 31 and shielding wire 14.
In addition, as shown in FIG. 8, the copulational protuberance 34 that in the ring-type copulational protuberance 33 of shield terminal 31, forms respectively be arranged on compressed 54 of seal member 51 in the engagement grooves 56 of endless member 55 to engage recess and engaging of protuberance.Therefore, seal member 51 is controlled along moving of axial direction.
As mentioned above, shielded connector according to the first embodiment, because the tubulose seal member 51 of the part between the neighboring of the internal jacket 16 of the part between the inner rim that is provided with the patchhole 13a of can 13 simultaneously and the neighboring of the internal jacket 16 of formation shielding wire 14 and the inner rim of shield terminal 31 and shielding wire 14, so compare with the situation of the seal member that is provided for respectively sealing above-mentioned part, by reducing the number of member, can further reduce cost.In addition, thus can eliminate the patchhole 13a that uses a plurality of seal members to enlarge shell 13 and the inconvenience of infringement shielding properties.
In addition, when crimp type terminal 19 is fixed to the heart yearn 15 that exposes in the end sections of shielding wire 14, between shield terminal 31 and crimp type terminal 19, the individual components of being made by insulating material is not set, shield terminal 31 is significantly separated from crimp type terminal 19, thereby can guarantee insulating properties between shield terminal 31 and crimp type terminal 19 by seal member 51, and can improve shielding properties.Therefore, can be suppressed owing to the cost increase that parts independently cause is set, and can eliminate shield terminal 31 is significantly separated and the inconvenience that causes magnifying from crimp type terminal 19.
In addition, because the endless member 55 that is formed from a resin and forms with seal member 51 and shield terminal 31 engage with recessed and engaging of protuberance, can access and keep so seal member 51 can be maintained at excellent sealing state that assigned position place and seal member 51 produce.
In addition, because the endless member 55 that engages with shield terminal 31 with the joint of recessed and protuberance is arranged in seal member 51 mid portion in the axial direction, so seal member 51 can remain on the assigned position place and can obtain good sealing state with well balanced property.
Especially, because seal member 51 forms as boundary symmetrically about mid portion endless member 55, on the axial direction is set, so can eliminate the directional characteristic of seal member 51 and can easily carry out the attaching operation.
In addition, because the mid portion of seal member 51 is compressed, so when the internal jacket 16 of shielding wire 14 was inserted into seal member 51, the sealing 52 and 53 of seal member 51 easily was out of shape.Correspondingly, can easily realize the update of the internal jacket 16 of shielding wire 14.
In addition, because seal member 51 is provided with the endless member 55 that is formed from a resin, so when seal member 51 is attached to shield terminal 31, can grip and promote this endless member 55 harder than other parts, thus with the sealing component assemble to shield terminal 31.
Now, with the shielded connector that is described below according to the second embodiment.
Those members identical with the first embodiment will be omitted by identical Reference numeral mark and its explanation.
As shown in Fig. 9 and Figure 10, in shielded connector 11, be provided with the seal member 61 that is different from the first embodiment.
Seal member 61 for example also utilizes, and the such elastomeric material of rubber forms.As shown in Figure 11 A, Figure 11 B, Figure 12 A and Figure 12 B, seal member 61 has two annular seal sections 62 and 63, and the thickness of this annular seal section is large.Sealing 62 has little by little outwards outstanding lip 62a and the 62b of perimeter sides and inner periphery side.Be similar to sealing 62, sealing 63 also has little by little outwards outstanding lip 63a and the 63b of perimeter sides and inner periphery side.
Seal member 61 so that between sealing 62 and 63, form compressed 64 that thickness reduces as this part of the mid portion of axial direction.
In addition, in seal member 61, in the end of the inserting side of shielding wire 14, formed endless member 65.
Endless member 65 utilizes the shape that forms and form L such as the synthetic resin of plastics in the cross section.In endless member 65, copulational protuberance 66 is formed on the inserting side of shielding wire 14 in the periphery avris of described endless member 65.In addition, in shield terminal 31, copulational protuberance 34 is not formed in the inner rim of ring-type copulational protuberance 33, and is formed near the stage portion 38 in the inner rim of tube 37.Copulational protuberance 34 engages with the copulational protuberance 66 of seal member 61.Therefore, seal member 61 is controlled along moving of axial direction.
In addition, endless member 65 comprises proper circle forming portion 67 in the perimeter sides within it.Described proper circle forming portion 67 comprises a plurality of projections 68, and these a plurality of projections 68 are inwardly given prominence to and arranged along circumferential direction along diametric(al).Described projection 68 has respectively guiding surface 68a in the inserting side of shielding wire 14, this guiding surface 68a is sloping inwardly along the direction of insertion of shielding wire 14 in the radial direction gradually.
Then, in proper circle forming portion 67, the outer periphery surface of the internal jacket 16 that exposes from the shielding wire 14 that is inserted into is pushed into the core by the guiding surface 68a of projection 68 respectively.Therefore, thereby even be out of shape slightly being shaped as of it when flat when the internal jacket 16 of shielding wire 14, this internal jacket 16 is inserted in the proper circle forming portion 67, thereby the profile at this internal jacket 16 is formed in the pressure mode under the state of proper circle, and this internal jacket 16 is guided to seal member 61.
The internal diameter of proper circle forming portion 67 is set as less times greater than the external diameter of internal jacket 16, thereby the smooth insertion of the internal jacket 16 of shielding wire 14 is not exerted an influence.
As mentioned above, shielded connector according to the second embodiment, because the tubulose seal member 61 of the part between the neighboring of the internal jacket 16 of the part between the inner rim that is provided with the patchhole 13a of can 13 simultaneously and the neighboring of the internal jacket 16 that forms shielding wire 14 and the inner rim of shield terminal 31 and shielding wire 14 is so can reduce cost by the number of minimizing member.In addition, can eliminate the inconvenience of infringement shielding properties.
In addition, utilize seal member 61, can guarantee the insulating properties between shield terminal 31 and the crimp type terminal 19 and can improve shielding properties.
Especially, because forming the internal jacket 16 of shielding wire 14 is inserted in the seal member 61, even so when the internal jacket 16 of shielding wire 14 was out of shape a little, the profile of the internal jacket 16 of shielding wire 14 also can be formed proper circle by the proper circle forming portion 67 of endless member 65.Therefore, can allow seal member 61 to form close contact and obtain good sealing state with the internal jacket 16 of good balance and shielding wire 14.
The invention is not restricted to above-described embodiment, and can suitably be revised and improve.In addition, can without stint at random adopt and to realize any material, form, size, number and position of the present invention, member in the above-described embodiments.
The application is based on the Japanese patent application No.2010-196711 that submits on September 2nd, 2010, and the content of this patent application is incorporated into herein by reference.
Can obtain high shielding properties and high sealing performance and do not enlarge shielded connector and increase aspect the shielded connector of cost providing, the present invention is exceedingly useful.
1. shielded connector, shielding wire is connected to this shielded connector; This shielding wire is included in internal jacket, screen and the external jacket that the periphery of heart yearn sets gradually; Described shielded connector is attached to the ground connection objective body so that described shielding wire is guided to the patchhole that forms in described objective body, and with electric current from described screen conductivity to described objective body; Described shielded connector comprises:
The endless member that is formed from a resin is arranged in the described seal member integratedly, and
3. shielded connector according to claim 2, wherein:
4. according to claim 2 or 3 described shielded connectors, wherein:
CN102893459A true CN102893459A (en) 2013-01-23
CN102893459B CN102893459B (en) 2015-03-11
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