CN205404902U - Transceiver module release mechanism - Google Patents

Abstract

The utility model provides a transceiver module release mechanism, the transceiver module includes a shell, transceiver module release mechanism includes linking arm, handle and pull ring, the linking arm sets up around the shell, the handle pivot is located on the linking arm, the pull ring is connected with linking arm detachable. The utility model discloses a setting up the pull ring of being connected with linking arm detachable, when unblock transceiver module, can directly stimulateeing the pull ring and make the transceiver module break away from the port on the corresponding electronic equipment, like this, need not to pull out the connecting terminal in the transceiver module, the unblock is more simple, and is convenient, and, installing back on the rack with the transceiver module, through taking off the pull ring, can avoid taking place to interfere with machine door, do not occupy extra anterior space, easy to carry out.

Description

Transceiver module solution latch mechanism

Technical field

This utility model relates to a kind of transceiver module solution latch mechanism, particularly to a kind of solution latch mechanism for plug type optics and copper transceiver module.

Background technology

Conventional plug type optics and copper transceiver module generally adopt rotatable handle or fixing drawing type handle, lock or be unlocked on the port on electronic equipment.But, unlock transceiver module by rotatable handle, it is necessary to before rotating handles, extract the connection terminal in transceiver module front, it is very inconvenient to operate.Additionally, fixing drawing type handle can take bigger space in transceiver module front, so there is at equipment the closedown that can affect cabinet door under highdensity port arrangements, also can affect the cabling of optical cable or cable simultaneously.

Therefore, it is necessary to a kind of transceiver module solution latch mechanism of exploitation, it is possible to when not dismantling connection terminal, make transceiver module depart from (namely unlocking) port on corresponding electronic equipment, be not take up extra front space simultaneously.

Utility model content

The purpose of this utility model is in that to provide a kind of transceiver module solution latch mechanism, to solve existing transceiver module when unlocking, and inconvenient operation and take one or more problem in more front space.

For solving above-mentioned technical problem, this utility model provides a kind of transceiver module solution latch mechanism, and described transceiver module includes a shell, and described transceiver module solution latch mechanism includes linking arm, handle and draw ring；Described linking arm is arranged at around described shell, and described handle pivot is located on described linking arm, and described draw ring is detachable with described linking arm to be connected.

Preferably, in described transceiver module solution latch mechanism, described transceiver module solution latch mechanism also includes an automatic resetting device, and described automatic resetting device is positioned at the top of described transceiver module in order to limit described handle.

Preferably, in described transceiver module solution latch mechanism, described automatic resetting device includes spring, mounting hole, chute and latch structure；One end of described spring is connected with described linking arm；Described mounting hole and chute may be contained within described linking arm；Described linking arm is by being arranged at bearing pin in described mounting hole and described handle pivot joint；Described handle is provided with described latch structure；Wherein, described spring, the major axis of mounting hole and the length of chute are all arranged along unlocking direction；

When described handle pivot goes to a solution lock-bit, described linking arm moves along the long axis direction of described mounting hole under the elastic force effect of described spring, so that described latch structure is connected in described chute.

Preferably, in described transceiver module solution latch mechanism, the quantity of described spring is multiple, and multiple described springs are spaced apart along the width of described linking arm.

Preferably, in described transceiver module solution latch mechanism, described linking arm being additionally provided with the gathering sill of an arc, described gathering sill connects with described chute；Along with the pivot of described handle, described latch structure moves in described gathering sill.

Preferably, in described transceiver module solution latch mechanism, described linking arm is a U-shaped structure.

Preferably, in described transceiver module solution latch mechanism, described linking arm is provided with one or more perforate；Described draw ring has one or more hook formation；Described hook formation realizes detachable connection in order to catch on described perforate.

Preferably, in described transceiver module solution latch mechanism, described draw ring includes annulus and from outward extending first adjutage of described annulus and the second adjutage, and one end of described first adjutage and the second adjutage is bent to form described hook formation.

Preferably, in described transceiver module solution latch mechanism, described draw ring also includes a rubber parts, and described rubber parts is coated on described annulus.

In sum, transceiver module solution latch mechanism of the present utility model has the advantages that

1, this utility model is by arranging the draw ring that be connected detachable with linking arm, when unlocking transceiver module, transceiver module can be made to depart from the port on corresponding electronic equipment by direct pull draw ring, so, without pulling out the connection terminal in transceiver module front, unlock more simple, convenient；Additionally, after described transceiver module is installed on rack, by draw ring is taken off, can prevent from interfering with cabinet door, therefore, be not take up extra front space, it is easy to implement；

2, this utility model is also by the automatic resetting device adopting spring, mounting hole, chute and latch structure to constitute, realize the automatic spacing function of handle, so can by the top of described handle automatic homing to described transceiver module, so that rotatable handle has the function of holding position, and then, before locking or after unblock, when needing socket connection terminal, described handle may remain in suitable position, thus without influence on the normal grafting connecting terminal, simplify installation and removal process simultaneously.

Accompanying drawing explanation

Fig. 1 is that the transceiver module solution latch mechanism of this utility model one embodiment is in the decomposing schematic representation unlocking transceiver module；

Fig. 2 is that the transceiver module solution latch mechanism of this utility model one embodiment is in the assembling schematic diagram of locking transceiver module；

Fig. 3 is that the transceiver module solution latch mechanism of this utility model one embodiment is in the assembling schematic diagram unlocking transceiver module；

Fig. 4 is the schematic diagram of the transceiver module solution latch mechanism of this utility model one embodiment；

Fig. 5 is the schematic diagram of the linking arm of this utility model one embodiment；

Fig. 6 is the schematic diagram of the draw ring of this utility model one embodiment；

Fig. 7 is the schematic diagram of the handle of this utility model one embodiment；

Fig. 8 is that the transceiver module solution latch mechanism shown in Fig. 4 is in the partial enlarged drawing at A place.

Description of reference numerals in figure is as follows:

100-transceiver module solution latch mechanism；110-linking arm；111-base arm；111a-body；111b-the first connecting portion；111c-the second connecting portion；112-the first side arm；112a-the first arm section；112b-the second arm section；112c-the 3rd arm section；113-the second side arm；114-holds space；115-perforate；116-gathering sill；117-bending structure；118-mounting hole；119-chute；120-handle；121-drag link；122-the first articulated section；123-the second articulated section；124-the first latch structure；125-the second latch structure；130-draw ring；131-hook formation；132-annulus；133-the first adjutage；134-the second adjutage；140-the first bearing pin；150-the second bearing pin；160-spring；200-transceiver module；210-shell；220-circuit board；300-connects terminal；

Detailed description of the invention

For making the purpose of this utility model, advantage and feature clearly, the transceiver module solution latch mechanism that the utility model proposes below in conjunction with 1～8 pair, accompanying drawing is described in further detail.It should be noted that, accompanying drawing all adopts the form simplified very much and all uses non-ratio accurately, only in order to purpose convenient, aid illustration this utility model embodiment lucidly.

Fig. 1 is that the transceiver module solution latch mechanism of this utility model one embodiment is in the decomposing schematic representation unlocking transceiver module, Fig. 2 be this utility model one embodiment transceiver module solution latch mechanism in locking transceiver module assembling schematic diagram, Fig. 3 be this utility model one embodiment transceiver module solution latch mechanism in unlock transceiver module assembling schematic diagram.In Fig. 1, in order to represent the inner case of transceiver module, described transceiver module illustrates with decomposing state.

As shown in Figures 1 to 3, described transceiver module solution latch mechanism 100 is applicable to a transceiver module 200 is unlocked, and described transceiver module 200 is such as plug type optics or copper transceiver module；Wherein, described transceiver module 200 includes a shell 210, is provided with a circuit board 220 in described shell 210.

Described transceiver module solution latch mechanism 100 includes linking arm 110, handle 120 and draw ring 130；Described linking arm 110 is arranged at surrounding's (being predominantly located at around the front end of shell 210, described front end is proximate to one end of user) of shell 210；Described handle 120 is hubbed on linking arm 110, and namely described handle 120 is rotationally connected with linking arm 110；Described draw ring 130 is detachable with linking arm 110 to be connected, and is namely detachably arranged on linking arm 110.

When implementing locking, as shown in Figure 2, and in conjunction with Fig. 1, when described handle 120 is switched to a locking bit (being illustrated in Fig. 2), transceiver module 200 is pushed against by handle 120, the one end (namely away from one end of user, referred to as rear end) that can make the circuit board 220 of transceiver module 200 locks with the port (connectivity port on such as main circuit board, not shown) on corresponding electronic equipment；Afterwards, can be used for transmitting the connection terminal 300 of signal in front end (i.e. the front end of the shell 210) grafting of transceiver module 200, as shown in Figure 3.In addition, before unlocking, if described transceiver module 200 is positioned in rack, cannot normal switching-off in order to avoid draw ring 130 and cabinet door interfere, draw ring 130 need to be taken off on transceiver module solution latch mechanism 100, herein, when can be selected in locking transceiver module 200, take off on transceiver module solution latch mechanism 100 by described draw ring 130, to guarantee enough working places.At this, those skilled in the art should know: the rear end of described circuit board 220 is usually provided with a connector (not shown), in order to be electrically connected with the port on corresponding electronic equipment, and the other end of described circuit board 220 (namely near one end of user, be referred to as front end) is electrically connected and connects terminal 300.

Implement unlock time, as it is shown on figure 3, and in conjunction with Fig. 2, can draw ring 130 be installed on linking arm 110, afterwards, along unlocking direction, draw ring 130 be exerted a force, transceiver module 200 can be pulled, until the rear end of circuit board 220 departs from the port on corresponding electronic equipment and unlocks.Now, it is not necessary to extract the connection terminal 300 of transceiver module 200 front end, transceiver module 200 can be unlocked, namely described draw ring 130 is positioned at the side connecting terminal 300, such as left side, right side, above or below etc., so can effectively dodge connect terminal 300 installing zone, it is simple to operation.

This utility model is by arranging the draw ring 130 that be connected detachable with linking arm 110, when unlocking transceiver module 200, transceiver module 10 can be made to depart from the port on corresponding electronic equipment by direct pull draw ring 130, thus unlocking, so, without pulling out the connection terminal 300 of transceiver module 200 front end, so unlock more simple, convenient.If additionally, described transceiver module 200 is installed in rack, by draw ring 130 is taken off on transceiver module solution latch mechanism 100, can avoid interfering with cabinet door, therefore, be not take up extra front space, it is easy to implement.

In the present embodiment, described shell 210 can include lower house and the upper shell being arranged on described lower house, and described upper shell and lower house are collectively forming an accommodation space.

Fig. 4 is the schematic diagram of the transceiver module solution latch mechanism of this utility model one embodiment, and Fig. 5 is the schematic diagram of the linking arm of this utility model one embodiment.

As shown in Figures 4 and 5, described linking arm 110 include base arm 111 and from the two ends of base arm 111 vertically extending first side arm 112 and the second side arm 113, described base arm the 111, first side arm 112 and the second side arm 113 constitute the accommodation space 114 of a shell 210 holding transceiver module 200, so, described base arm the 111, first side arm 112 and the second side arm 113 all may be disposed at around the front end of shell 210 (include shell 210 bottom and with the both sides of described bottom contiguous).

Preferably, the both sides of described shell 210 are provided with a guide-track groove (not indicating in figure), in order to accommodating first side arm 112 and the second side arm 113, to avoid increasing the width dimensions of transceiver module 200, affect the normal mounting in corresponding electronic equipment of transceiver module 200.

In the present embodiment, described base arm 111 has body 111a, the first end face connecting body 111a two ends and the second end face, described first end face extends to form the first connecting portion 111b along the direction being perpendicular to body 111a, described equally the second end face extends to form the second connecting portion 111c along the direction being perpendicular to body 111a, it is preferable that described body 111a, the first connecting portion 111b and the second connecting portion 111c constitute " U-shaped " structure.First side arm 112 of the present embodiment extends to form from the side of the first connecting portion 111b is straight, and described second side arm 113 extends to form from the side of the second connecting portion 111c is straight.

Optional, described linking arm 110 is integral structure, is namely integrally machined molding, for instance can form described linking arm 110 by punching press, Bending Processing.The substantially U-shaped structure of described linking arm 110.More optional, described first side arm 112 is identical with the structure of the second side arm 113, to reduce processing cost.

If described first side arm 112 is identical with the structure of the second side arm 113, wherein, described first side arm 112 includes the first arm section 112a being sequentially connected with, second arm section 112b and the three arm section 112c, first arm section 112a of described first side arm 112 is connected with the first connecting portion 111b of base arm 111, first arm section 112a of described second side arm 113 is connected with the second connecting portion 111c of base arm 111, preferably described second arm section 112b is the convex bridge of an outwardly convex, the both sides of transceiver module 200 assembly clearance in corresponding electronic equipment can be adjusted by convex bridge, guarantee assembling effect.

As it is shown in figure 5, the body 111a of optional described base arm 111 is provided with one or more perforate 115.Correspondence, as shown in Figure 6, it is the schematic diagram of draw ring of this utility model one embodiment, and described draw ring 130 has one or more hook formation 131, can be caught on the perforate 115 in base arm 111 by hook formation 131.Hook is adopted to carry out detachable connection, simple in construction, easy to operate.In further embodiments (not shown), described draw ring 130 also can detachable with the side arm of described linking arm 110 be connected, such as it is provided with perforate 115 at the first side arm 112 and the second side arm 113 near one end of user, and on each side arm, it is correspondingly arranged a draw ring 130, each draw ring 130 can catch on perforate 115 by hook, is so unlocked by both sides force.Concrete this utility model does not limit.

With continued reference to Fig. 6, described draw ring 130 includes annulus 132 and first adjutage 133 and second adjutage 134 of stretch out from annulus 132 (such as straight extension), one end of described first adjutage 133 and the second adjutage 134 is bent to form a hook formation 131, wherein, described annulus 132 is used for housing finger, it is simple to force.But, this utility model is to the concrete structure of draw ring 130 and is not construed as limiting, as long as being easy to be connected detachable with linking arm 110, and just may be used in the space with finger manipulation.

Preferably, described draw ring 130 also includes a rubber parts (not shown), and described rubber parts is coated on annulus 132, it is possible to partly or completely cladding annulus 132.Set up separately in finger hold and put rubber parts, frictional force can be increased on the one hand, on the other hand can the comfort level of lifting operation.

As it is shown in fig. 7, it is the schematic diagram of handle of this utility model one embodiment.Described handle 120 includes drag link 121 and extends first articulated section 122 and second articulated section 123 of (preferred vertical bending extension) from the two ends bending of drag link 121, and described drag link 121 drives the first articulated section 122 and the second articulated section 123 to rotate for stress.

As shown in Figure 4, described solution latch mechanism 100 also includes the first bearing pin 140 and the second bearing pin 150；Second connecting portion 111c pivot joint of described first bearing pin 140 and base arm 111, the first articulated section 122 of described handle 120 is fixedly arranged on the first bearing pin 140, and pivots with the first bearing pin 140；First connecting portion 111b pivot joint of described second bearing pin 150 and base arm 111, the second articulated section 123 of described handle 120 is fixedly arranged on the second bearing pin 150, and pivots with the second bearing pin 150.

In preferred version, described linking arm 110 is provided with the gathering sill 116 of an arc, pivots in gathering sill 116 limiting handle 120.Concrete, first connecting portion 111b of the base arm 111 of the present embodiment and the second connecting portion 111c place are provided with the gathering sill 116 of an arc, first articulated section 122 of described handle 120 arranges the first latch structure 124 simultaneously, second articulated section 123 of described handle 120 is provided with the second latch structure 125, in described handle 120 pivoting, the first latch structure 124 and the second latch structure 125 pivot in unison can be driven, and be confined in the gathering sill 116 of arc to move；So, when described handle 120 is switched to one end of gathering sill 116, described handle 120 is positioned at a locking bit (being illustrated in Fig. 2), and now can exert a force pushing and pressing transceiver module 200, so that circuit board 220 is locked in corresponding electronic equipment；When described handle 120 is switched to the other end of gathering sill 116, described handle 120 is positioned at a solution lock-bit (being illustrated in Fig. 3), at this point it is possible to be unlocked or the operation of socket connection terminal 300.

Especially, when described handle 120 is positioned at described solution lock-bit, in order to make handle 120 remain at the side (mainly the top of transceiver module 200) of transceiver module 200, described transceiver module solution latch mechanism 100 also includes an automatic resetting device, the top of transceiver module 200 it is positioned in order to limit handle 120, namely limit handle 120 and remain in described solution lock-bit, specifically as shown in Fig. 4, Fig. 5 and Fig. 8.Fig. 8 is that the transceiver module solution latch mechanism shown in Fig. 4 is in the partial enlarged drawing at A place.

Specifically, the body 111a of described base arm 111 is provided with one or more spring 160.The quantity of the spring 160 of the present embodiment is multiple, and multiple springs 160 are spaced apart along the width (namely along the width of shell 210) of linking arm 110, and biasing effect is good.Wherein, one end of each spring 160 is fixedly arranged on body 111a and arranges along unlocking direction, for instance arrange bending structure 117 on body 111a, for catching on one end of spring 160.Meanwhile, first connecting portion 111b and the second connecting portion 111c place of described base arm 111 are provided with a mounting hole 118, described first bearing pin 140 and the second bearing pin 150 just may pass through mounting hole 118, thus realizing the pivot joint of handle 120 and linking arm 110, and the major axis of described mounting hole 118 is arranged along unlocking direction, linking arm 110 so can be made only to move along unlocking direction.And, the other end of described gathering sill 116 is provided with the chute 119 connected with gathering sill 116, the length of described chute 119 is arranged along unlocking direction, and when described handle 120 is positioned at described solution lock-bit, described linking arm 110 can move along the long axis direction of mounting hole 118 under the elastic force effect of spring 160, so that the first latch structure 124 of handle 120 and the second latch structure 125 are all connected in chute 119, thus automatic spacing is in described solution lock-bit, unless again pulled linking arm 110 and made handle 120 depart from clamping.This is because: after transceiver module 200 being placed in the accommodation space 114 of transceiver module solution latch mechanism 100, described spring 160 can be subject to the effect of transceiver module 200 and deform, thus producing elastic force, thus just can automatically promote linking arm 110 toward the motion along the long axis of mounting hole 118, and then make the first latch structure 124 of handle 120 and the second latch structure 125 be connected in chute 119.

Above-mentioned spring 160, mounting hole 118, chute the 119, first latch structure 124 and the second latch structure 125 just constitute the automatic resetting device of the present embodiment.Having a lot it is of course possible to realize handle 120 automatic homing in the structure of described solution lock-bit, at this, this utility model only schematically illustrates some of them implementation, but should in this, as to restriction of the present utility model.

This utility model is by arranging automatic resetting device, rotatable handle 120 can be made to have the function of holding position, namely automatic homing is to the top of transceiver module 200, thus, before locking or unlock after, when needing socket connection terminal 300, described handle 120 can be limited in described solution lock-bit, impact is avoided to connect the normal grafting of terminal 300, so it is possible not only to prevent from causing because handle 120 does not have in place repeatedly plug to connect the problem of terminal 300, and also simplify installation and removal process.

In sum, this utility model is by arranging the draw ring 130 that be connected detachable with linking arm 110, when unlocking transceiver module 200, transceiver module 200 can be made to depart from the port on corresponding electronic equipment by direct pull draw ring 130, so, without pulling out the connection terminal 300 on transceiver module 200, unlock more simple, convenient.If additionally, transceiver module 200 is installed in rack, by draw ring 130 is taken off on transceiver module solution latch mechanism 100, can avoid interfering with cabinet door, therefore, be not take up extra front space, it is easy to implement.

Further, this utility model also adopts the automatic resetting device being made up of spring, mounting hole, chute and latch structure, realize the automatic spacing function of handle 120, thus can by the top of handle 120 automatic homing to transceiver module 200, so that rotatable handle 120 has the function of holding position, thus, before locking or after unblock, when needing socket connection terminal 300, described handle can be held in described solution lock-bit, thus without influence on the normal grafting connecting terminal 300, simplify installation and removal process simultaneously.

Foregoing description is only the description to this utility model preferred embodiment; the not any restriction to this utility model scope; any change that the those of ordinary skill in this utility model field does according to the disclosure above content, modification, belong to the protection domain of claims.

Claims (9)

1. a transceiver module solution latch mechanism, described transceiver module includes a shell, it is characterised in that described transceiver module solution latch mechanism includes linking arm, handle and draw ring；Described linking arm is arranged at around described shell, and described handle pivot is located on described linking arm, and described draw ring is detachable with described linking arm to be connected.

2. transceiver module solution latch mechanism according to claim 1, it is characterised in that described transceiver module solution latch mechanism also includes an automatic resetting device, and described automatic resetting device is positioned at the top of described transceiver module in order to limit described handle.

3. transceiver module solution latch mechanism according to claim 2, it is characterised in that described automatic resetting device includes spring, mounting hole, chute and latch structure；One end of described spring is connected with described linking arm；Described mounting hole and chute may be contained within described linking arm；Described linking arm is by being arranged at bearing pin in described mounting hole and described handle pivot joint；Described handle is provided with described latch structure；Wherein, described spring, the major axis of mounting hole and the length of chute are all arranged along unlocking direction；

When described handle pivot goes to a solution lock-bit, described linking arm moves along the long axis direction of described mounting hole under the elastic force effect of described spring, so that described latch structure is connected in described chute.

4. transceiver module solution latch mechanism according to claim 3, it is characterised in that the quantity of described spring is multiple, and multiple described springs are spaced apart along the width of described linking arm.

5. transceiver module solution latch mechanism according to claim 3, it is characterised in that being additionally provided with the gathering sill of an arc on described linking arm, described gathering sill connects with described chute；Along with the pivot of described handle, described latch structure moves in described gathering sill.

6. transceiver module solution latch mechanism as claimed in any of claims 1 to 5, it is characterised in that described linking arm is a U-shaped structure.

7. transceiver module solution latch mechanism according to any one of claim 1 to 5, it is characterized in that, being provided with one or more perforate on described linking arm, described draw ring has one or more hook formation, and described hook formation realizes detachable connection in order to catch on described perforate.

8. transceiver module solution latch mechanism according to claim 7, it is characterized in that, described draw ring includes annulus and from outward extending first adjutage of described annulus and the second adjutage, and one end of described first adjutage and the second adjutage is bent to form described hook formation.

9. transceiver module solution latch mechanism according to claim 8, it is characterised in that described draw ring also includes a rubber parts, and described rubber parts is coated on described annulus.