CN204216290U - Hot swap type interface connector - Google Patents

Abstract

The utility model discloses a kind of hot swap type interface connector, at least one plug assembly comprising housing and arrange in the housing; Described plug assembly comprises connector body, is arranged on the shackle member on described connector body and the strutting piece for shackle member described in supporting and location; The upper double wall that described shackle member comprises vertically disposed antetheca, level extends back, lower double wall and be positioned at front end in order to the buckle reed of buckle to connection module, described antetheca, upper double wall and lower double wall surround the draw-in groove that a level extends back jointly, and described draw-in groove rear end is coated with the rear end EMC parts be immobilizated on described connector body.Setting like this, can improve the shield effectiveness of hot swap type interface connector from radiation path.

Description

Hot swap type interface connector

Technical field

The utility model belongs to optic electric interface connector technique field, is specifically related to a kind of hot swap type interface connector.

Background technology

Gigabit interface connector (GBIC) is a kind of input-output apparatus of hot plug, and this equipment is inserted in Gigabit Ethernet port/slot, is responsible for port and fiber optic network to link together.GBIC can use and exchange on various cisco product, and can port basis ground mixed with 1000BaseSX, 1000BaseLX/LH or 1000BaseZX interface following IEEE 802.3z.Furtherly, Cisco is providing a kind of 1000BaseLX/LH interface following IEEE 802.3z1000BaseLX standard completely, but its transmission range on monomode fiber is up to 10 kilometers, far away than common 1000BaseLX interface 5 kilometers.In a word, along with continually developing of New function, these module upgrades will be more prone to up-to-date interfacing, thus make clients investment play greatest benefit.

The design of these traditional plug-in types succeeds in the past, but their trend can not reach the target of industrial lasting miniaturization.It is expected that make transceiver miniaturized to increase the port density joined with the network join dependency of such as distribution box, cable connection panel, wiring closet and computer input/output (I/O).Traditional insertable module structure can not meet these parameter needs.Also wish to increase port density and the connecting interface optimization making SFP module.

Disclose new standard at present, and be referred to herein as hot swap type (SFP) standard, SFP is the abbreviation of SMALLFORMPLUGGABLE, simply can be interpreted as the upgraded version of GBIC.SFP module volume ratio GBIC module reduces half, can configure the port number having more more than a times on identical panel.Other functions fundamental sum GBIC of SFP module is consistent.Some switch manufacturer claims SFP module to be miniaturized GBIC (MINI-GBIC).SFP module volume ratio GBIC module reduces half, can configure the port number having more more than a times on identical panel.Other functions fundamental sum GBIC of SFP module is identical.

This standard regulation is determined except miniaturization except making mould, also wishes to increase operating frequency.Such as, practical application can move to from the scope below kilomegabit rapidly and substantially exceed a kilomegabit.

In maintenance or make module minimize while even increasing its speed of service to cause many design problems, be particularly in the application that the message data rate of 1-10Gbs (gigabit/second) is higher in such as scope.

EMC (Electro Magnetic Compatibility) has another name called Electro Magnetic Compatibility, refers to that equipment or system meet the requirements in its electromagnetic environment and runs the ability of intolerable electromagnetic interference of not producing any equipment in its environment.EMC comprises the requirement of two aspects: refer to that equipment can not exceed certain limit value to the electromagnetic interference that place environment produces in normal course of operation on the one hand; Refer to that utensil has immunity to interference to a certain degree to the electromagnetic interference existed in the environment, i.e. electromagnetic susceptibility on the other hand.

But, in the prior art, at least one plug assembly that SFP socket connector comprises housing and arranges in the housing; Described plug assembly comprises connector body, the shackle member be arranged on described connector body, described shackle member front end is provided with in order to the buckle reed of buckle to connection module, connector easily through module buckle reed gap to external radiation, setting like this, shell cannot realize shield effectiveness completely to connector.

Therefore, need to improve to overcome above-mentioned technological deficiency to prior art.

Utility model content

The purpose of this utility model is to provide a kind of hot swap type interface connector improving shield effectiveness from radiation path.

The technical scheme realizing the utility model object is: a kind of hot swap type interface connector, at least one plug assembly comprising housing and arrange in the housing; Described plug assembly comprises connector body, is arranged on the shackle member on described connector body and the strutting piece for shackle member described in supporting and location; The upper double wall that described shackle member comprises vertically disposed antetheca, level extends back, lower double wall and be positioned at front end in order to the buckle reed of buckle to connection module, described antetheca, upper double wall and lower double wall surround the draw-in groove that a level extends back jointly, and described draw-in groove rear end is coated with the rear end EMC parts be immobilizated on described connector body.

As further improvement of the utility model, described rear end EMC parts contact with the rear end of upper double wall and lower double wall in shackle member.

As further improvement of the utility model, described connector body front end is provided with the holddown groove of two horizontal directions, and in described shackle member, the rear end of upper double wall and lower double wall lays respectively in a corresponding holddown groove.

As further improvement of the utility model, described rear end EMC parts comprise covering the main board portion of draw-in groove rear end, bending the assembly wall of extension from the upper and lower both sides of main board portion backward, and described assembly wall to be immobilizated on connector body and between upper double wall and lower double wall rear end.

As further improvement of the utility model, described assembly wall overlaps respectively with the rear end of upper double wall and lower double wall respectively.

As further improvement of the utility model, described rear end EMC parts also comprise to bend extension backward from the main board portion left and right sides hold arm, described in hold arm and be immobilizated in connector body.

As further improvement of the utility model, described strutting piece comprises support terminals and strutting piece; Described support terminals is provided with and runs through support terminals along the longitudinal direction and horizontal fixing hole; Described strutting piece comprises the canned paragraph inserted in corresponding fixing hole.

As further improvement of the utility model, described strutting piece comprises upper supporting piece and lower support beam, described upper supporting piece comprises two upper brace summers, and described lower support beam comprises two lower support beams, and described each canned paragraph lays respectively at the front end of brace summer and lower support beam;

The other end of described each lower support beam is first basic to be extended as horizontal support section along horizontal direction, more then extends to form vertical support section downwards; From the side, the basic configuration of described each lower support beam is L shape; Seen from above, described two lower support beams are combined into the basic configuration of U-shaped or Y shape;

The other end of described each upper brace summer is first basic to be extended as horizontal support section along horizontal direction, more then extends to form vertical support section downwards; From the side, the basic configuration of described each upper brace summer is L shape; Seen from above, described two upper brace summers are combined into the basic configuration of U-shaped or Y shape.

As further improvement of the utility model, described upper supporting piece and lower support element adopt transparent material to make; The bottom surface place described housing facing described upper brace summer vertical support section and lower support beam vertical support section is provided with loophole, and described housing is provided with just to the light-emitting diode that described each loophole is arranged.

As further improvement of the utility model, described rear end EMC parts are metal, conductive plastic, conducting foam or plastic surface plated metal.

The utility model has positive effect: described rear end EMC parts can cover described module buckle reed gap in advance on radiation path, prevent hot swap type interface connector through module buckle reed gap to external radiation, thus improve the shield effectiveness of described hot swap type interface connector.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model;

Fig. 2 is the perspective view of hot swap type interface connector shown in Fig. 1 after removing part enclosure;

The part isometric STRUCTURE DECOMPOSITION schematic diagram that Fig. 3 is hot swap type interface connector shown in Fig. 2;

Fig. 4 is part isometric structural representation of the present utility model;

Fig. 5 stereochemical structure exploded view of the present utility model;

The stereochemical structure exploded view of another angle of Fig. 6 the utility model.

Reference numeral is: housing 1, loophole 11, diapire 13, roof 14, sidewall 15, plug assembly 2, connector body 3, stopper slot 31, spacing breach 32, holddown groove 33, slot 34, shackle member 4, antetheca 41, upper double wall 42, lower double wall 43, draw-in groove 44, riveted joint stator 45, open-work 46, buckle reed 47, module buckle reed gap 48, support component 5, support terminals 51, fixing hole 511, front surface 512, side surface 513, top surface 514, basal surface 515, front end EMC parts 6, front bulkhead 61, perforation 611, side wall 62, top end wall 63, base end wall 64, clasp arm 65, upper supporting piece 52, upper brace summer 521, canned paragraph 5211, horizontal support section 5212, vertical support section 5213, entablature 522, lower support element 53, lower support beam 531, canned paragraph 5311, horizontal support section 5312, vertical support section 5313, sill 532, rear end EMC parts 7, main board portion 71, assembly wall 72, hold arm 73.

Embodiment

Below with reference to specific embodiment shown in the drawings, the utility model is described in detail.What deserves to be explained is, hereafter described embodiment does not limit the utility model, and the structure that those of ordinary skill in the art makes according to these embodiments, method or conversion functionally are all included in protection range of the present utility model.

Shown in please refer to the drawing 1 to Fig. 6, be originally that utility model discloses a kind of SFP type hot swap type interface connector, the plug assembly 2 comprising housing 1 and arrange within the case 1.Described housing 1 comprises roof 14, sidewall 15 and diapire 13; Described plug assembly 2 comprises connector body 3, is arranged on the shackle member 4 on described connector body 3 and the support component 5 for shackle member described in supporting and location 4; The upper double wall 42 that described shackle member 4 comprises vertically disposed antetheca 41, level extends back and lower double wall 43, described antetheca 41, upper double wall 42 and lower double wall 43 surround the draw-in groove 44 that a level extends back jointly.The front end of described upper double wall 42 and lower double wall 43 is equipped with buckle reed 47, module buckle reed gap 48 is provided with between the buckle reed 47 of described upper double wall 42 and the buckle reed 47 of lower double wall 43, described hot swap type interface connector through described module buckle reed gap 48 to external radiation, thus can reduce the shield effectiveness of described hot swap type interface connector.

Shown in please refer to the drawing 3, Fig. 5 and Fig. 6, described support component 5 comprises support terminals 51, upper supporting piece 52 and lower support element 53; Described support terminals 51 is provided with four and runs through support terminals 51 along the longitudinal direction and horizontal fixing hole 511.Described lower support element 53 comprises two lower support beams 531, the front end of described each lower support beam 531 is inserted in a corresponding fixing hole 511 as canned paragraph 5311, the other end of described each lower support beam 531 is first basic to be extended as horizontal support section 5312 along horizontal direction, more then extends to form vertical support section 5313 downwards; From the side, the basic configuration of described each lower support beam 531 is L shape; Seen from above, described two lower support beams 531 are combined into the basic configuration of Y shape.

Described upper supporting piece 52 comprises two upper brace summers 521, the front end of described each upper brace summer 521 is inserted in a corresponding fixing hole 511 as canned paragraph 5211, the other end of described each upper brace summer 521 is first basic to be extended as horizontal support section 5212 along horizontal direction, more then extends to form vertical support section 5213 downwards; From the side, the basic configuration of described each upper brace summer 521 is L shape; Seen from above, described two upper brace summers 521 are combined into the basic configuration of Y shape.

In concrete practice, also can adjust the basic configuration of upper supporting piece 52 and lower support element 53, such as the shape of two upper brace summers 521 in upper supporting piece 52 is made following form: seen from above, described two upper brace summers 521 are combined into the basic configuration of U-shaped; Or the shape of two lower support beams 531 in lower support element 53 is made following form: seen from above, described two lower support beams 531 are combined into the basic configuration of U shape.In general two strutting pieces are selected to be the shape of Y shape or to select a strutting piece to be another strutting piece of U-shaped to be the shape of Y shape to be optimal way, because this planform can make lower support member stagger to be fixed installation to it better preferably.

See shown in Fig. 1 to Fig. 5, the antetheca 41 of described shackle member 4 is provided with four open-works 46; Described each open-work 46 to face in support component 5 a corresponding fixing hole 511 in support terminals 51.

In the utility model, described support terminals 51 is roughly cuboid shape, comprises the front surface 512 being positioned at front end, the side surface 513 being positioned at front surface 512 both sides and is positioned at top surface 514 and the basal surface 515 at upper and lower two ends.Described support terminals 51 front end is coated with front end EMC parts 6, described front end EMC parts 6 comprise the front bulkhead 61 being coated on support terminals 51 front surface 512, setting like this, described front end EMC parts 6 can cover described module buckle reed gap 48, prevent hot swap type interface connector through module buckle reed gap 48 to external radiation, thus improve the shield effectiveness of described hot swap type interface connector.

Described front bulkhead 61 is provided with four perforation 611, and described each perforation 611 to face in support component 5 a corresponding fixing hole 511 in support terminals 51.So, can make outside the canned paragraph 5211,5311 of the lower support element 53 in described fixing hole 511 and upper supporting piece 52 is exposed to forward.

Each open-work 46 on the antetheca 41 of described shackle member 4 faces corresponding on front end EMC parts 6 one and bores a hole 611.So, can make outside the canned paragraph 5211,5311 of the lower support element 53 in described fixing hole 511 and upper supporting piece 52 is exposed to forward.

Described front end EMC parts 6 also comprise the side wall 62 being coated on support terminals 51 side surface 513 bending extension from front bulkhead 61 left and right sides backward.Setting like this, described front end EMC parts 6 can be immobilizated in described support terminals 51 in the lateral direction.

Described front end EMC parts 6 also comprise the top end wall 63 and base end wall 64 that are held on support terminals 51 top surface 514 and basal surface 515 from side wall about 62 inward at both ends bending extension, setting like this, described front end EMC parts 6 can be immobilizated in described support terminals 51 in the vertical direction.

Described front end EMC parts 6 top end wall 63 is higher than front bulkhead 61 top, described top end wall 63 front end bends the clasp arm 65 being extended with and being held on support terminals 51 front surface 512 downwards, described base end wall 64 is lower than bottom front bulkhead 61, and described base end wall 64 front end upwards bends the clasp arm 65 being extended with and being held on support terminals 51 front surface 512.Setting like this, described front end EMC parts 6 structure is more stable, described clasp arm 65 firmly can support front end EMC parts 6 and too move backward in side, prevent front bulkhead 61 stress effect holds forward the antetheca 41 of shackle member 4 in the middle part of front bulkhead 61 to front protrusion because both sides are stressed backward simultaneously, and then avoids affecting the overall steadiness of hot swap type interface connector.

Described top end wall 63 and base end wall 64 are in order to overlap mutually with the upper double wall 42 of shackle member 4 and lower double wall 43 respectively.Setting like this, described shackle member 4 can form with front end EMC parts 6 screening cage comparatively closed in plug assembly 2 front end, thus improves the shield effectiveness of hot swap type interface connector.

As shown in Figure 2, described upper supporting piece 52 and lower support element 53 adopt transparent material to make; The bottom surface place described housing 1 diapire 13 facing described upper brace summer 521 vertical support section 5213 and lower support beam 531 supporting section is provided with loophole 11, and described housing 1 diapire 13 is provided with just to the light-emitting diode (figure does not draw) that described each loophole 11 is arranged, in concrete practice, described light-emitting diode can be fixed on diapire 13, also can be arranged on the external circuits plate that is fixedly connected with the present embodiment.Described upper supporting piece 52 and lower support element 53 in the utility model also as light guide use, for the photoconduction of light-emitting diode 12 is drawn be irradiated to shackle member 4 antetheca 41 open-work 46 in, use as guidance lighting.

See shown in Fig. 5 to Fig. 6, the canned paragraph 5211 of described upper brace summer 521 and the canned paragraph 5311 of lower support beam 531 are in same level, the horizontal support section 5212 of described upper brace summer 521 is positioned at the top of described lower support beam 531 horizontal support section 5312, and the vertical support section 5213 of described upper brace summer 521 is positioned at the rear of described lower support beam 531 vertical support section 5313.

See shown in Fig. 2 and Fig. 3, the horizontal support section 5312 of described each lower support beam 531 is against on shackle member 4 times double wall 43 inner surfaces; The horizontal support section 5212 of described each upper brace summer 521 to be against in shackle member 4 on double wall 42 inner surface.

The canned paragraph 5211 of described two upper brace summers 521 is arranged in two fixing holes 511 being positioned at centre of described shackle member 4 four fixing holes 511, and the canned paragraph 5311 of described two lower support elements 53 is arranged in two fixing holes 511 of the separation two side ends of described shackle member 4.

See shown in Fig. 2 to Fig. 6, from the side, the basic configuration of described shackle member 4 is U-shaped; The canned paragraph 5211 of the support terminals 51 of described support component 5, the canned paragraph 5311 of lower support element 53 and horizontal support section 5312, upper supporting piece 52 and horizontal support section 5212 are positioned at the draw-in groove 44 of described shackle member 4.

As shown in Figure 5, the left and right sides of described connector body 3 is provided with the stopper slot 31 for spacing described upper brace summer 521 vertical support section 5213, described diapire 13 is fixed with and stops shell fragment (not shown), the bottom of the vertical support section 5213 of described upper brace summer 521 is arranged in described stopper slot 31; Form the spacing breach 32 being used for spacing described lower support beam 531 vertical support section 5313 between described stop shell fragment and described connector body 3, the bottom of the vertical support section 5313 of described lower support beam 531 is arranged in described spacing breach 32.

See shown in Fig. 3 and Fig. 4, described connector body 3 comprises two slots 34 of described shackle member about 4 both sides of living apart.

As shown in Figure 4, the antetheca of described connector body 3 is provided with the holddown groove 33 of two horizontal directions, and in described shackle member 4, the rear end of upper double wall 42 and lower double wall 43 lays respectively in a corresponding holddown groove 33.Described connector body 3 front end is provided with the rear end EMC parts 7 in order to coated described draw-in groove 44 rear end, and described rear end EMC parts 7 contact with the rear end of upper double wall 42 and lower double wall 43 in shackle member 4.Setting like this, described rear end EMC parts 7 can prevent hot swap type interface connector equally through module buckle reed gap 48 to external radiation, thus improve the shield effectiveness of described hot swap type interface connector.In other embodiments, described front end EMC parts 6 and rear end EMC parts 7 can exist simultaneously, setting like this, two pass EMC parts are increased in shackle member 4 inside, described upper double wall 42 and lower double wall 43 and two pieces of EMC component contact, form double layer screen, prevent hot swap type interface connector further through module buckle reed gap 48 to external radiation, better carry high shielding effect from radiation path.

Described rear end EMC parts 7 comprise the main board portion 71 covering draw-in groove 44 rear end, the assembly wall 72 of extension is bent backward from main board portion about 71 both sides, described assembly wall 72 to be immobilizated in the holddown groove 33 of connector body 3 and between upper double wall 42 and lower double wall 43 rear end, specifically, holddown groove 33 also can be able to be compound groove for single type groove, namely the holddown groove 33 of assembly wall 72 fixings can be positioned at same groove with the holddown groove 33 in order to double wall on fixing 42 and lower double wall 43, or the holddown groove 33 of described assembly wall 72 fixings also can be positioned in order to the holddown groove 33 of double wall on fixing 42 and lower double wall 43 inner side some.Setting like this, described rear end EMC parts 7 can be stablized in the vertical direction and are immobilizated on connector body 3.

Described assembly wall 72 overlaps respectively with the rear end of upper double wall 42 and lower double wall 43 respectively, so arranges, and structure is simple, and easy to assembly.

Described rear end EMC parts 7 also comprise to bend extension backward from main board portion 71 left and right sides hold arm 73, the described arm 73 that holds is immobilizated in connector body 3, setting like this, described rear end EMC parts 7 can be stablized in the lateral direction and are immobilizated on connector body 3.

As shown in Figure 6, two are provided with for being fixedly connected with the sill 532 of two lower support beams 531 between two lower support beams 531 of described lower support element 53; Two are provided with for being fixedly connected with the entablature 522 of two upper brace summers 521 between two upper brace summers 521 of described upper supporting piece 52; In described shackle member 4, the both sides of described upper double wall 42 and lower double wall 43 are provided with the riveted joint stator 45 of protrusion.

Described support component 5 is due to shape, the structure of its uniqueness, and brace summer 521 and two lower support beams 531 on configurable two in a shackle member 4, compact conformation, more firm support can fix shackle member 4.Described brace summer 5 can adopt transparent plastic to make, also namely can be used as light-guiding pillar to use, the light of light-emitting diode conducts in four open-works 46 of shackle member 4 antetheca 41 by each light-guiding pillar, the luminescence of light-emitting diode finally transmits from corresponding open-work 46, can be the connection using state that user provides corresponding optical fiber, in addition, owing to have employed four brace summers 521,531 as light-guiding pillar, a shackle member 4 can mix two sockets, so the utility model can meet the structural requirement of the multirow multiport of upper and lower two row.In other embodiments, also can be separated by dividing plate (not shown) between described each connector body 3 and form upper and lower two line multiport SFP type connectors.

Described EMC parts can for metal and other material with conducting function be as conductive plastic, foam, plastic surface plated metal etc.Setting like this, described EMC parts can possess good shielding properties.

Be to be understood that, although this specification is described according to execution mode, but not each execution mode only comprises an independently technical scheme, this narrating mode of specification is only for clarity sake, those skilled in the art should by specification integrally, technical scheme in each execution mode also through appropriately combined, can form other execution modes that it will be appreciated by those skilled in the art that.

A series of detailed description listed is above only illustrating for feasibility execution mode of the present utility model; they are also not used to limit protection range of the present utility model, all do not depart from the utility model skill equivalent implementations of doing of spirit or change all should be included within protection range of the present utility model.

Claims (10)

1. a hot swap type interface connector, at least one plug assembly comprising housing and arrange in the housing; Described plug assembly comprises connector body, is arranged on the shackle member on described connector body and the support component for shackle member described in supporting and location; It is characterized in that: the upper double wall that described shackle member comprises vertically disposed antetheca, level extends back, lower double wall and be positioned at front end in order to the buckle reed of buckle to connection module, described antetheca, upper double wall and lower double wall surround the draw-in groove that a level extends back jointly, and described draw-in groove rear end is coated with the rear end EMC parts be immobilizated on described connector body.

2. hot swap type interface connector according to claim 1, is characterized in that: described rear end EMC parts contact with the rear end of upper double wall and lower double wall in shackle member.

3. hot swap type interface connector according to claim 1, is characterized in that: described connector body front end is provided with the holddown groove of two horizontal directions, and in described shackle member, the rear end of upper double wall and lower double wall lays respectively in a corresponding holddown groove.

4. hot swap type interface connector according to claim 1, it is characterized in that: described rear end EMC parts comprise covering the main board portion of draw-in groove rear end, bend the assembly wall of extension from the upper and lower both sides of main board portion backward, described assembly wall to be immobilizated on connector body and between upper double wall and lower double wall rear end.

5. hot swap type interface connector according to claim 4, is characterized in that: described assembly wall overlaps respectively with the rear end of upper double wall and lower double wall respectively.

6. hot swap type interface connector according to claim 4, is characterized in that: described rear end EMC parts also comprise to bend extension backward from the main board portion left and right sides hold arm, described in hold arm and be immobilizated in connector body.

7. hot swap type interface connector according to claim 1, is characterized in that: described support component comprises support terminals and strutting piece; Described support terminals is provided with and runs through support terminals along the longitudinal direction and horizontal fixing hole; Described strutting piece comprises the canned paragraph inserted in corresponding fixing hole.

8. hot swap type interface connector according to claim 7, it is characterized in that: described strutting piece comprises upper supporting piece and lower support beam, described upper supporting piece comprises two upper brace summers, described lower support beam comprises two lower support beams, and described each canned paragraph lays respectively at the front end of brace summer and lower support beam;

The other end of described each lower support beam is first basic to be extended as horizontal support section along horizontal direction, more then extends to form vertical support section downwards; From the side, the basic configuration of described each lower support beam is L shape; Seen from above, described two lower support beams are combined into the basic configuration of U-shaped or Y shape;

The other end of described each upper brace summer is first basic to be extended as horizontal support section along horizontal direction, more then extends to form vertical support section downwards; From the side, the basic configuration of described each upper brace summer is L shape; Seen from above, described two upper brace summers are combined into the basic configuration of U-shaped or Y shape.

9. hot swap type interface connector according to claim 8, is characterized in that: described upper supporting piece and lower support element adopt transparent material to make; The bottom surface place described housing facing described upper brace summer vertical support section and lower support beam vertical support section is provided with loophole, and described housing is provided with just to the light-emitting diode that described each loophole is arranged.

10. hot swap type interface connector as claimed in any of claims 1 to 9, is characterized in that: described rear end EMC parts are metal, conductive plastic, conducting foam or plastic surface plated metal.