CN103852833A - Communication module - Google Patents

Abstract

The invention relates to a communication module which at least comprises a shell structure, an electronic module and a sliding structure. The external surface of the shell structure is provided with at least one clamping and separating area which is internally provided with a first inclined surface. The electronic module is partially arranged in the internal part of the shell structure. The sliding structure is provided with at least one extension arm which is provided with a second inclined surface. The extension arm is correspondingly arranged in the clamping and separating area in a way that the second inclined surface and the first inclined surface are face-to-face arranged, wherein the slope of the second inclined surface is greater than that of the first inclined surface.

Description

Communication module

Technical field

The present invention relates to a kind of communication module, espespecially a kind of pluggable communication module.

Background technology

Along with computer system and relevant interface equipment were developing in recent years fast, therefore increase information transfer rate with the work in response to carrying out high complexity, the such as function such as digital data transmission and image analysing computer is trend of the times, under such demand, optical fiber technology is complied with and is given birth to, it can be applicable to long distance or the transmission of short-range signal, utilizes high-speed light signal to replace existing electric signal and reaches the object that information transfer rate increases.

Refer to Figure 1A, it is the structural representation of existing fiber communication module and respective socket, as shown in the figure, optical fiber communication modules 11 is provided as the signal transmission between electronic installation, generally in order to increase the elasticity of system and easy to maintenance, optical fiber communication modules 11 is can pluggable mode inserting in the socket 121 that is arranged at correspondence in communication apparatus 12, and optical fiber communication modules 11 comprises the S-shaped shell fragment of an end 111, and in the socket 121 of communication apparatus 12, be provided with to the inside the shell fragment 1211 of bending, so that optical fiber communication modules 11 is while being inserted into the latched position of socket 121, by shell fragment 1211 end kayser optical fiber communication modules 11.Otherwise, in the time that optical fiber communication modules 11 will depart from socket 121, needing by shell fragment 111 contact shell fragments 1211 to unlocked position, optical fiber communication modules 11 could be from socket 121 slippages.

Refer to Figure 1A and Figure 1B, wherein Figure 1B is the cross-sectional view that existing fiber communication module departs from from socket.As shown in the figure, 11 liang of side bodies of optical fiber communication modules have respectively an appearance plane 112 that is parallel to optical fiber communication modules 11 and plugs direction, and shell fragment 111 is arranged in appearance plane 112.When the shell fragment 111 of optical fiber communication modules 11 is subject to a pulling force effect and when moving away from the direction of communication apparatus 12, the circular-arc protuberance 1111 that is arranged at shell fragment 111 ends can upwards strut shell fragment 1211, once shell fragment 1211 bottom level, higher than circular-arc protuberance 1111, optical fiber communication modules 11 can depart from kayser state and depart from socket 121.

Refer to Figure 1B, due to the curved-surface structure design of circular-arc protuberance 1111 can make shell fragment 1211 by the peak of circular-arc protuberance after on the contrary along curved surface reduce its arrange height, once the height tolerance design out of true of shell fragment 1211, optical fiber communication modules 11 can, inserting or pulling away in socket 121 processes, occur that shell fragment 1211 is stuck in socket 121 outside surfaces and cannot completes the situation that disengaging (de-latch) or kayser (latch) etc. move.

Therefore, how to develop a kind of communication module, to improve the problem of aforementioned prior art, real is current problem in the urgent need to address.

Summary of the invention

A fundamental purpose of the present invention is to provide a kind of communication module, the slope on the second inclined-plane by rake is greater than the technical characterictic of the slope on the first inclined-plane that engages abscission zone, adjutage engaged abscission zone the first inclined-plane extruding and make to depart between communication module and socket kayser state, and exit in socket, use and solve the definition margin tolerance that prior art need be accurate, can carry out smoothly kayser and depart from the problem of program.

Another fundamental purpose of the present invention is to provide a kind of communication module, utilize flexible member this pressure section to be applied to the architectural feature of axial force, in the time that pulling force effect is removed, drive slide construction to return back to initial position by the elastic force of flexible member axis direction, larger tensile strength can be provided, the structure of itself can not damaged along with the increase of access times, can increase serviceable life.

For reaching above-mentioned purpose, of the present invention one compared with broad sense form of implementation for a kind of communication module is provided, at least comprise: shell structure, its outside surface has and at least engages abscission zone, engaging is provided with the first inclined-plane in abscission zone; Electronic module, its part is arranged at shell structure inside; And slide construction, thering is at least one adjutage, adjutage has the second inclined-plane, and adjutage is face-to-face mode with the second inclined-plane and the first inclined-plane and is arranged in corresponding engaging abscission zone, and wherein the slope on the second inclined-plane is greater than the slope on the first inclined-plane.

For reaching above-mentioned purpose, of the present invention another compared with broad sense form of implementation for a kind of communication module is provided, at least comprise: shell structure, has conduit; Electronic module, its part arranges in shell structure; Slide construction, has at least one adjutage, and adjutage has the pressure section going deep in conduit; Flexible member, is arranged in conduit, in order to this pressure section is applied to axial force.

Brief description of the drawings

Figure 1A is the structural representation of existing fiber communication module and respective socket.

Figure 1B is the cross-sectional view that existing fiber communication module departs from from socket.

Fig. 2 A is the communication module decomposing schematic representation of preferred embodiment of the present invention.

Fig. 2 B is the package assembly schematic diagram of Fig. 2 A.

Fig. 3 A is the part composition member schematic diagram of the slide construction shown in Fig. 2 A.

Fig. 3 B is another part composition member schematic diagram of the slide construction shown in Fig. 2 A.

Fig. 3 C is the unitized construction schematic diagram of Fig. 3 A and Fig. 3 B.

Fig. 4 A is the structural representation of the first housing shown in Fig. 2 A and slide construction and flexible member assembling.

Fig. 4 B is the part-structure side view of communication module of the present invention.

Fig. 5 is the cross sectional representation of Fig. 4 A part-structure.

Fig. 6 is the assembling schematic diagram of the first housing shown in Fig. 2 A and the second housing.

Fig. 7 is the structural representation that Fig. 2 B removes the first housing.

Fig. 8 A is that communication module kayser of the present invention is in the diagrammatic cross-section of socket.

Fig. 8 B is the diagrammatic cross-section that communication module of the present invention departs from socket.

Wherein, description of reference numerals is as follows:

Optical fiber communication modules: 11

Shell fragment: 111,1211

Circular-arc protuberance: 1111

Appearance plane: 112

Plane: 5131

Communication apparatus: 12

Socket: 121,8

Locking mechanism: 81

Communication module: 2

Shell structure: 3

The first housing: 31

Engaging abscission zone: 311

The first inclined-plane: 312

Groove: 313

Fin: 314

Conduit: 315

Guide groove: 316

The first side plate: 317

Short slot: 3171

Joint pin: 318

Lead angle structure: 319

The second housing: 32

Blocking part: 321

The second side plate: 322

Lead re-entrant angle structure: 3221

Storage tank: 323

Electronic module: 4

Circuit component: 41

Stop section: 411

Cable: 42

Slide construction: 5

Adjutage: 51

The second inclined-plane: 511

Rake: 512

Separate buckle portion: 513

Plane: 5131

Pressure section: 514

Sliding part: 515

Sinking space: 516

Syndeton: 52

Hole: 521

Actuated piece: 53

Draw ring: 531

Cross bar: 532

Flexible member: 6

Lock member: 71,72

Direction: X, Y, Z

Embodiment

Some exemplary embodiments that embody feature & benefits of the present invention will describe in detail in the explanation of back segment.Be understood that the present invention can have various variations different in form, it neither departs from the scope of the present invention, and explanation wherein and being shown in essence for explanation, but not in order to limit the present invention.

Refer to Fig. 2 A and 2B, the communication module decomposing schematic representation that wherein Fig. 2 A is preferred embodiment of the present invention, Fig. 2 B is the package assembly schematic diagram of Fig. 2 A.As shown in the figure, communication module 2 at least comprises shell structure 3, electronic module 4 and slide construction 5, wherein the outside surface of shell structure 3 has at least one engaging abscission zone 311, and engaging is provided with one first inclined-plane 312 in abscission zone 311, electronic module 4 parts arrange the inside of shell structure 3, there is at least one adjutage 51 as for slide construction 5, in the present embodiment, engaging abscission zone 311 can be 2 with the quantity of adjutage 51, but not as limit, adjutage 51 has one second inclined-plane 511, adjutage 51 is face-to-face mode with the second inclined-plane 511 and the first inclined-plane 312 and is arranged in corresponding engaging abscission zone 311, wherein the slope on the second inclined-plane 511 is greater than the slope on the first inclined-plane 312, in communication module 2 in the time that the socket 8 (as shown in Figure 8 A) of electronic equipment departs from, adjutage 51 engaged abscission zone 311 the first inclined-plane 312 extruding and make to depart between communication module 2 and socket 8 kayser state, and exit in socket 8.By previous designs, socket 8 can have larger tolerance design space, and can effectively avoid communication module 2 to occur to depart from or situation that cannot kayser.

Shell structure 3 of the present invention can be but not be limited to and comprises the first housing 31 and the second housing 32, wherein, the dual-side of the first housing 31 extends respectively one first side plate 317 is set, this engaging abscission zone 311 is arranged on the part outside surface of the first side plate 317, and engaging abscission zone 311 also can be provided with a groove 313 except comprising the first inclined-plane 312, and the dual-side of groove 313 is respectively arranged with a fin 314.

Certainly; form of implementation and the composition member of the applicable shell structure 3 of the present invention do not limit to above-mentioned structure, are as long as forming for accommodating part electronic module 4 and shell structure that the adjutage 51 of slide construction 5 is set the scope that the present invention protects.

Referring again to Fig. 2 A and Fig. 2 B, electronic module 4 of the present invention is in order to carry out optical transmit-receive function, and it is fixedly arranged on the second housing 32 by lock member 71, and part is arranged at shell structure 3 inside, can comprise circuit component 41 and cable 42, circuit component 41 is connected with cable 42.

Refer to Fig. 3 A, it is the part composition member schematic diagram of the slide construction shown in Fig. 2 A, as shown in Fig. 2 A and Fig. 3 A, adjutage 51 includes a rake 512 and and separates buckle portion 513, the inside surface of rake 512 is this second inclined-plane 511, be arranged at the end of adjutage 51 and be connected with rake 512 and separate buckle portion 513, and separate between buckle portion 513 and rake 512 and form a sinking space 516(as shown in Figure 8 A), after slide construction 5 and the first housing 31 combinations, the rake 512 of adjutage 51 and solution buckle portion 513 will be arranged in engaging abscission zone 311, the second inclined-plane 511 and the first inclined-plane 312 are arranged face-to-face, separate buckle portion 513 and be arranged at groove 313 inside (as shown in Figure 2 B) that engage abscission zone 311.

Refer to Fig. 3 A, 3B and 3C, wherein Fig. 3 B is another part composition member schematic diagram of the slide construction shown in Fig. 2 A, Fig. 3 C is the unitized construction schematic diagram of Fig. 3 A and Fig. 3 B, as shown in Figure 3A, the composition member of slide construction 5 of the present invention also comprises the syndeton 52 with hole 521 except adjutage 51.In the time that the quantity of this adjutage 51 is more than 2 or 2 positive integers, described multiple adjutage 51 extends outstanding from this syndeton 52, in the present embodiment, the quantity of adjutage 51 can be two, but not as limit, it is arranged at respectively the limit, two opposite sides of syndeton 52, and can be but not be limited in integrated mode and formed with syndeton 52.

Refer to Fig. 3 B, slide construction 5 of the present invention also can comprise an actuated piece 53, its coated this syndeton 52 spacing by 52 of this syndetons that connects, it can be but not be limited to a pull-handle structure, actuated piece 53 can comprise a draw ring 531 and a cross bar 532, draw ring 531 use for user's drawing to provide a pulling force to drive whole slide construction 5.Refer to Fig. 3 C, in the present embodiment, actuated piece 53 is being for example that the mode of ejection formation (Overmold) of Dual-color dual-material combines with syndeton 52, in ejaculation process, the partly plastic of cross bar 532 can be poured into hole 521(or the projection of syndeton 52 by this kind of connected mode) in, except can reaching and making to be firmly connected between actuated piece 53 and syndeton 52, more can avoid actuated piece 53 that the problem of sliding occurs in rotary course.

Referring again to Fig. 2 A, communication module 2 of the present invention also can comprise a flexible member 6, and when it is removed in pulling force effect, the effect of the elastic-restoring force by axis direction can drive slide construction 5 to return back to initial position, does not need additionally to grant additional strength again.

Referring again to Fig. 3 A, comprise a pressure section 514 in inside surface and the contiguous syndeton 52 of adjutage 51, its form of implementation can be but not be limited to a box structure.Refer to Fig. 4 A, it is the structural representation of the first housing shown in Fig. 2 A and slide construction and flexible member assembling, as shown in the figure, the inside of the first housing 31 more can comprise a conduit 315, in the time that the first housing 31 is assembled with slide construction 5, this pressure section 514 will deeply be arranged at conduit 315 inside, as for, flexible member 6 is arranged in conduit 315 equally, and its one end is axially connected with pressure section 514, be that its one end is connected along the axis direction of the first housing 311 with pressure section 514, the other end is axially connected with a wall of conduit 315, in order to pressure section 514 is applied to axial force, so that pressure section 514 stably moves at conduit 315, and can not be offset, vibrations wait power consumption phenomenon.

Refer to Fig. 2 A and Fig. 4 B, the part-structure side view that wherein Fig. 4 B is communication module of the present invention, as shown in the figure, in the present embodiment, the second housing 32 has a blocking part 321, the conduit 315 of its corresponding the first housing 31 arranges, in the first housing 31 and slide construction 5, after flexible member 6 and the second housing 32 match and have assembled, blocking part 321 will deeply be arranged at the side setting of conduit 315 inner and contiguous flexible members 6, blocking part 321 can give the track of flexible member 6 at directions X, while making flexible member 6 by compression because of unsuitable disengaging program while preventing from departing from socket 8 because of communication module 2, depart from directions X.Certainly; above-mentioned structure is only one embodiment of the invention; as long as reaching, flexible member 6 is arranged in conduit 315, and its one end is axially connected with pressure section 514, the other end is with the form of implementation that a wall of conduit 315 is axially connected the scope that the present invention protects.

Refer to Fig. 3 A and Fig. 5, wherein Fig. 5 is the cross sectional representation of Fig. 4 A part-structure, as shown in the figure, adjutage 51 more comprises a sliding part 515, engaging abscission zone 311 more comprises a guide groove 316, sliding part 515 is arranged in the guide groove 316 of engaging abscission zone 311, can the shift motion of limit slippage structure 5 in the time that communication module 2 departs from program, depart from the process of socket 8 at communication module 2, the stroke when sliding part 515 that is arranged at adjutage 51 upper surfaces utilizes guide groove 316 to limit it to depart from program, and can be confined to depart from program time, unsuitable drawing makes adjutage 51 cause the degree of turning up, occur with the situation of avoiding communication module 2 can not pull out socket 8.

Refer to Fig. 2 A and Fig. 6, wherein Fig. 6 is the assembling schematic diagram of the first housing shown in Fig. 2 A and the second housing, as shown in the figure, the first housing 31 more comprises a joint pin 318, itself and the one-body molded setting of part the first side plate 317, and extend towards the second housing 32 directions, between joint pin 318 and the first side plate 317, form a lead angle structure 319, in addition, the dual-side of the second housing 32 arranges at least one the second side plate 322 towards vertical extension of the first housing 31 directions respectively, and correspondingly with lead angle structure 319 arranges one and lead re-entrant angle structure 3221.

The first housing 31 has more a short slot 3171, and its position in corresponding the second side plate 322 of part the first side plate 317 forms short slot 3171, the connection corresponding to this short slot 3171 of this second side plate 322.

In addition, the assembling mode of the first housing 31 of the present invention and the second housing 32 can utilize joint pin 318 to be bearing on angle of inclination on the opposite flank of the second side plate 322, and to rotate after fixing mode makes lead angle structure 319 and lead re-entrant angle structure 3221 and contact each other, then make short slot 3171 with the corresponding connection of the second side plate 322 to be assembled into shell structure 3.In addition, even can be with lock member 72 by the first housing 31 and further fixing (as shown in Figure 2 A and 2 B) of the second housing 32.

Due to, the front end of communication module 2 of the present invention locks together the first housing 31 and the second housing 32 with lock member 72, rear end is utilize lead angle structure 319 and lead re-entrant angle structure 3221 the first housing 31 and the second housing 32 are deducted mutually, can reach stable and fix the first housing 31 and the second housing 32, and then prevent the situation generation of upset clockwise of the first housing 31.

Moreover, the present invention passes through in the short slot 3171 and the corresponding connection of the second side plate 322 of the first side plate 317, can after assembling completes, dwindle the gap between the first housing 31 and the second housing 32, and increase the complicacy in EMI path, can reach and prevent that EMI from releasing situation and occurring.

Refer to Fig. 2 A and Fig. 7, wherein Fig. 7 is the structural representation that Fig. 2 B removes the first housing, as shown in Figure 2 A, the second housing 32 more can comprise a storage tank 323, by the stop section of electronic module 4 411 being arranged to storage tank 323 inside, can reach part cable 42 is fixed on to shell structure 3 inside, can avoid causing movement because of pullling of external force.

Refer to Fig. 2 A and Fig. 8 A, wherein Fig. 8 A is that communication module kayser of the present invention is in the diagrammatic cross-section of socket, as shown in the figure, communication module 2 of the present invention is can pluggable mode inserting in the socket 8 that is arranged at correspondence in electronic equipment, and in socket 8, be provided with locking mechanism 81, in the time that communication module 2 is inserted into the latched position of socket 8, locking mechanism 81 separates by being placed in sinking space 516 inside that form between buckle portion 513 and rake 512, separating buckle portion 513 is placed in groove 313 and locking mechanism 81 and the fin 314 of groove 313 dual-sides deduct mutually (as shown in Fig. 2 B and Fig. 4 A), make communication module 2 securely kayser in socket 8.

Refer to Fig. 2 A, 2B and 8B, wherein Fig. 8 B is the diagrammatic cross-section that communication module of the present invention departs from socket, as shown in the figure, when being subject to a pulling force, the draw ring 531 of slide construction 5 does the used time, towards the acting force of directions X, to drive whole slide construction 5 towards moving away from the direction of electronic equipment, because the slope on the second inclined-plane 511 of rake 512 is greater than the slope on the first inclined-plane 312 that engages abscission zone 311, therefore separating buckle portion 513 will be subject to the extruding on the first inclined-plane 312 and latch member 81 is supportted from this sinking space 516, be that latch member 81 moves to the top of separating buckle portion 513 by the bottom of sinking space 516 along the inclined-plane of separating buckle portion 513, and make latch member 81 surmount the height of fin 314, make to depart from kayser state between communication module 2 and socket 8, thus, communication module 2 just can be drawn out of and depart from socket 8.

The present invention is greater than the technical characterictic of the slope on the first inclined-plane 312 that engages abscission zone 311 by the slope on the second inclined-plane 511 of rake 512, can reach and make to separate buckle portion 513 and be subject to the extruding on the first inclined-plane 312 and latch member 81 is supportted from sinking space 516, can supply the bad of tolerance design by structure of the present invention, can absorb the accumulated size of tolerance, make size in QSFP+MSA specification.

Referring again to Fig. 8 B, the top of solution buckle portion 513 of the present invention is a contour plane 5131, in the time that latch member 81 moves to the top of separating buckle portion 513, can make more than latch member 81 is maintained at a level altitude in the time that these plane 5131 scopes move, while making latch member 81 depart from program, be not subject to the impact of tolerance dimension, and and between communication module 2, depart from kayser state, taking the end that solves existing bolt lock mechanism as circular-arc protuberance structure, after making locking mechanism depart from bolt lock mechanism, be snapped on the contrary on the outside surface housing of optical fiber communication modules, the problem that optical fiber communication modules cannot be departed from socket.

In sum, communication module of the present invention is can pluggable mode inserting in the socket that is arranged at correspondence in electronic equipment, the slope on the second inclined-plane by rake is greater than the technical characterictic of the slope on the first inclined-plane that engages abscission zone, can make to separate buckle portion is subject to the extruding on the first inclined-plane and latch member is supportted from sinking space, make to depart between communication module and socket kayser state, communication module just can be drawn out of and depart from the socket of electronic equipment, can supply the bad of tolerance design by structure of the present invention, to solve the definition margin tolerance that prior art must be very accurate, can carry out smoothly kayser and depart from the problem of program.

In addition, flexible member of the present invention is axially connected with pressure section by its one end, the architectural feature that the other end is axially connected with a wall of conduit, can, in the time that pulling force effect is removed, drive slide construction to return back to initial position by flexible member in the elastic force of axis direction, not need additionally to grant again additional strength, compared to prior art, flexible member of the present invention can provide larger tensile strength, and the structure of itself can not damaged along with the increase of access times, can increase serviceable life.

Therefore, communication module of the present invention has industrial utilization, files an application in whence in accordance with the law.

Can be by being familiar with that this skill personage Ren Shi craftsman thinks and being to modify as all even if the present invention has been described in detail by above-described embodiment, but scope neither de-as that claims institute wish is protected.

Claims (10)

1. a communication module, at least comprises:

One shell structure, its outside surface has at least one engaging abscission zone, is provided with one first inclined-plane in this engaging abscission zone;

One electronic module, its part is arranged at this shell structure inside; And

One slide construction, there is at least one adjutage, this adjutage has one second inclined-plane, and this adjutage is face-to-face mode with this second inclined-plane and this first inclined-plane and is arranged in this corresponding engaging abscission zone, and wherein the slope on this second inclined-plane is greater than the slope on this first inclined-plane.

2. communication module as claimed in claim 1, wherein this engaging abscission zone also comprises a guide groove, and this adjutage also comprises a sliding part, and this sliding part is slidedly arranged in this guide groove.

3. communication module as claimed in claim 1, wherein:

This shell structure also has a conduit;

This adjutage also has the pressure section going deep in this conduit;

This communication module also comprises a flexible member, and this flexible member is arranged in this conduit, in order to this pressure section is applied to axial force.

4. communication module as claimed in claim 3, wherein this shell structure also comprises a blocking part, and it is deeply arranged at inner and contiguous this flexible member setting of this conduit.

5. the communication module as described in claim 1 or 3, wherein this slide construction also comprises a syndeton, and the quantity of this adjutage is while being more than 2 or 2 positive integers, and described multiple adjutages extend outstanding from this syndeton.

6. communication module as claimed in claim 5, wherein this slide construction also comprises an actuated piece, coated this syndeton spacing by this syndeton institute that connects of this actuated piece.

7. the communication module as described in claim 1 or 3, wherein this adjutage comprises a rake and a solution buckle portion, and this solution buckle portion is connected to form a sinking space with this rake.

8. the communication module as described in claim 1 or 3, wherein this shell structure has one first housing and one second housing, this first housing has at least one lead angle structure, this second housing has at least one re-entrant angle structure of leading with the corresponding setting of this lead angle structure, and this first housing makes this lead angle structure and this lead re-entrant angle structure to be connected with rotation fixed form.

9. communication module as claimed in claim 8, wherein this first housing comprises at least one the first side plate, and this second housing comprises at least one the second side plate, and this first side plate has a short slot, the connection corresponding to this short slot of this second side plate.

10. a communication module, at least comprises:

One shell structure, has a conduit;

One electronic module, its part is arranged in this shell structure;

One slide construction, has at least one adjutage, and this adjutage has the pressure section going deep in this conduit;

One flexible member, is arranged in this conduit, in order to this pressure section is applied to axial force.

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