Utility model content
The purpose of this utility model is that, plug operation complicated for the above-mentioned existing apparatus structure for being mounted with optical module
It is relatively complicated, while connection status is unstable, the problem of being affected to the efficiency that optical module communicates.
The utility model is achieved through the following technical solutions: a kind of optical module unlocking resetting device, comprising:
Mobile locking solution lock section, second including the first locking part cooperation on the cage mating with optical module is sealed
The reciprocating movement portion that portion and the planned orbit on the shell of optical module move;
Pulling portion is rotated, is connected to the front side of the shell of optical module freely to rotate, including being grabbed convenient for the hand of finger grip
Portion, and the switching mechanism of the translational motion for the rotary motion of handgrip to be converted to reciprocating movement portion;And
Reset components, always towards direction of insertion to mobile locking solution lock section force.
As a further improvement of the above technical scheme, the switching mechanism includes first rotating arm and the second rotating arm,
The first rotating arm includes first connecting rod and second connecting rod, the upper end of the first connecting rod and the left end of handgrip
Connection, the lower end of first connecting rod are fixedly connected with the first end of second connecting rod, the second end of second connecting rod and the mobile locking
The front end in the reciprocating movement portion of solution lock section connects, and the lower end of first connecting rod is pivotally connected on shell;
Second rotating arm includes third connecting rod and fourth link, the upper end of the third connecting rod and the right end of handgrip
Connection, the lower end of third connecting rod are fixedly connected with the first end of fourth link, the second end of fourth link and the mobile locking
The front end in the reciprocating movement portion of solution lock section connects, and the lower end of third connecting rod is pivotally connected on shell.
As a further improvement of the above technical scheme, the first installation is equipped on the left of the front end of the shell of the optical module
The lower end of hole, first mounting hole and the first connecting rod is pivotally connected,
The second mounting hole, second mounting hole and the third connecting rod are equipped on the right side of the front end of the shell of the optical module
Lower end be pivotally connected.
As a further improvement of the above technical scheme, the reciprocating movement portion include with described in the first rotating arm
The first movement portion of the second end connection of second connecting rod, connect with the second end of the fourth link of second rotating arm
Second moving portion, and the interconnecting piece being fixedly connected between the top in first movement portion and the top of second moving portion.
As a further improvement of the above technical scheme, the left side of the shell of the optical module, which is equipped with, guides described first to move
The first mobile groove of dynamic portion, the first movement portion are slidedly arranged in the first groove,
The right side of the shell of the optical module is equipped with the second groove for guiding second moving portion mobile, and described second moves
Dynamic portion is slidedly arranged in the second groove,
As a further improvement of the above technical scheme, the front end in the first movement portion is equipped with the first connecting hole, described
The second end of the second connecting rod of first connecting hole and the first rotating arm is pivotally connected,
The front end of second moving portion is equipped with the second connecting hole, the institute of second connecting hole and second rotating arm
The second end for stating fourth link is pivotally connected.
As a further improvement of the above technical scheme, the reset components include the first compressed spring and the second compression bullet
Spring,
The middle part in the first movement portion is equipped with the first inwardly projecting fastener, first fastener and the optical mode
The first accommodating cavity is formed between the shell of block, first compressed spring is set in the first accommodating cavity and is crimped on the optical mode
Between the antetheca of first accommodating cavity of block and first fastener;
The middle part of second moving portion is equipped with the second inwardly projecting fastener, second fastener and the optical mode
The second accommodating cavity is formed between the shell of block, second compressed spring is set in the second accommodating cavity and is crimped on the optical mode
Between the antetheca of second accommodating cavity of block and second fastener.
As a further improvement of the above technical scheme, there are two second locking part is set, in second locking part
A rear side for being set to the first movement portion, after another in second locking part is set to second moving portion
Side, second locking part include the cambered surface lug boss of recessed portion and the rear side positioned at the recessed portion, the first lock on cage
Conjunction portion is and the recessed portion is matched compresses elastic plate.
As a further improvement of the above technical scheme, a kind of optical module, including shell and optical module unlock reset
Device, wherein the reciprocating movement portion of the mobile locking solution lock section of optical module unlocking resetting device is arranged to the shell along optical module
On planned orbit it is mobile, the rotation pulling portion of optical module unlocking resetting device is connected to the shell of optical module freely to rotate
Outside.
Implement the beneficial effects of the utility model to include at least: the handgrip by pulling rotation pulling portion, rotation drawing
Movement of the switching mechanism in portion by the reciprocating movement portion for being converted into mobile locking solution lock section of handgrip in extraction direction, from
And the second locking part of mobile locking solution lock section is unlocked from the first locking part on cage, the mobile locking of reset components driving
The reciprocating movement portion of solution lock section is resetted to direction of insertion is mobile, and the utility model structure is simple, and the plug of optical module is easy to operate
And it is quick, while connection status is stablized, usage experience is come good.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of embodiment of the utility model optical module unlocking resetting device;
Fig. 2 is a kind of decomposition diagram of embodiment of the utility model optical module unlocking resetting device;
Fig. 3 is a kind of structural representation of the rotation pulling portion of embodiment of the utility model optical module unlocking resetting device
Figure;
Fig. 4 is the structural schematic diagram that the first rotating arm of pulling portion is rotated in Fig. 3;
Fig. 5 is the structural schematic diagram that the second rotating arm of pulling portion is rotated in Fig. 3;
Fig. 6 is a kind of structural representation in the reciprocating movement portion of embodiment of the utility model optical module unlocking resetting device
Figure;
Fig. 7 is a kind of structural schematic diagram of the bottom of embodiment of the utility model optical module unlocking resetting device;
Fig. 8 is the first locking part and the second locking part of a kind of embodiment of the utility model optical module unlocking resetting device
Structural schematic diagram.
Appended drawing reference:
Optical module -100;
Mobile locking solution lock section -10;
Second locking part -11;Recessed portion -111;Cambered surface lug boss -112;
Reciprocating movement portion -12;
First movement portion -121;First connecting hole -1211;First fastener -1212;
Second moving portion -122;Second connecting hole -1221;Second fastener -1222;
Interconnecting piece -123;
Rotate pulling portion -20;Handgrip -21;
Switching mechanism -22;
First rotating arm -221;First connecting rod -2211;Second connecting rod -2212;The first end -2213 of second connecting rod;Second
The second end -2214 of connecting rod;
Second rotating arm -222;Third connecting rod -2221;Fourth link -2222;The first end -2223 of fourth link;4th
The second end -2224 of connecting rod;
First rotary shaft -23;Second rotary shaft -24;First latch release shaft -25;Second latch release shaft -26;
Reset components -30;First compressed spring -31;Second compressed spring -32;
First locking part -40;
Shell -50;Second mounting hole -51;Second groove -52.
Specific embodiment
Below in conjunction with attached drawing in the embodiments of the present invention, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.The component of the utility model embodiment being usually described and illustrated herein in the accompanying drawings can be with a variety of different configurations
To arrange and design.
Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below
The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Reality based on the utility model
Apply example, those skilled in the art's every other embodiment obtained without making creative work belongs to
The range of the utility model protection.
Optical module includes including optical receiver module, optical transmission module and optical transceiver module etc..Now, optical transceiver module in addition to
Outside developing to several directions such as hot plug, low cost, low-power consumption, more obvious trend is miniaturization and high-speed.Traditional light
Transceiver module is mostly a module independently transmitting two paths of signals, and rate has developed to mainstream now from initial 155Mbit/s
10Gbit/s, the rate of current forward direction 40Gbit/s marches.For circuit engineering at this stage, 40Gbit/s has been approached " electricity
The limit of sub- bottleneck ", if the bottleneck that exceeding, caused loss of signal, power dissipation, electromagnetic interference and impedance matching
The problems such as be all difficult to solve.In this case, the development of parallel light transceiving module causes extensive concern in the industry.
Parallel light transceiving module realizes superelevation rate, the biography of Large Volume Data by using highdensity multi-passage design
It is defeated, advantage is had more in terms of short-distance data communication.World-renowned optical module supplier each provides QSFP (Quad in recent years
Small Form-factor Pluggable, four-way compact package are hot-swappable), the parallel lights of several packing forms such as CXP
Transceiver module, wherein QSFP by using 8 channels (send, receive account for 4 channels respectively) design, using than SFP (Small
Form-factor Pluggable, compact package are hot-swappable) only have more 30% PCB (Printed Circuit Board,
Printed circuit board) cavity can realize that data bandwidth is transmitted in 10 times more than SFP of accumulation, therefore the related Development Techniques of QSFP are more next
More by attention in the industry.
But structure is complicated for the existing mounting device for being mounted with such QSFP optical module, and plug operation is relatively complicated, simultaneously
Connection status is unstable, and the efficiency communicated to QSFP optical module affects.It is multiple that the utility model provides a kind of optical module unlock
Position device, especially provides a kind of unlocking resetting device for QSFP optical module.
Please refer to Fig. 1, Fig. 2 and Fig. 6, a kind of optical module unlocking resetting device, comprising: mobile locking solution lock section 10, including
With optical module on mating cage the first locking part 40 cooperation the second locking part 11 and along the shell 50 of optical module
The mobile reciprocating movement portion 12 of planned orbit;Pulling portion 20 is rotated, before being connected to the shell 50 of optical module freely to rotate
Side, the handgrip 21 including being convenient for finger grip, and for the rotary motion of handgrip 21 to be converted to reciprocating movement portion 12
Translational motion switching mechanism 22;And reset components 30, it exerts a force always towards direction of insertion to mobile locking solution lock section 10.
In the present embodiment, optical module unlocking resetting device is used for the unlocking resetting device of QSFP optical module.
Referring to figure 3., wherein the switching mechanism 2222 includes the first rotating arm 221 being symmetrical set and the second rotation
Pivoted arm 222, the left end of the handgrip 21 are connect with the top of the first rotating arm 221, the right end of the handgrip 21 with
The top of second rotating arm 222 connects.
Referring to figure 2., Fig. 4 and Fig. 6, the first rotating arm 221 include first connecting rod 2211 and second connecting rod 2212, institute
The upper end for stating first connecting rod 2211 is connect with the left end of handgrip 21, the lower end of first connecting rod 2211 and the first end of second connecting rod
2213 connections, the lower end of the first connecting rod 2211 and the front end of the shell are pivotally connected, the second end of second connecting rod 2212
2214 connect with the front end in the reciprocating movement portion 12 of the mobile locking solution lock section 10.
The lower end of the first connecting rod 2211 is equipped with the first inwardly projecting rotary shaft 23, the shell 50 of the optical module
It is equipped with the first mounting hole (not shown) on the left of front end, first mounting hole and first rotary shaft 23 are pivotally connected.
Referring to figure 2., Fig. 5 and Fig. 6, second rotating arm 222 include third connecting rod 2221 and fourth link 2222, institute
The upper end for stating third connecting rod 2221 is connect with the right end of handgrip 21, the lower end of third connecting rod 2221 and the first end of fourth link
2223, the second end 2224 of fourth link is connect with the front end in the reciprocating movement portion 12 of the mobile locking solution lock section 10.
Referring to Fig.1 and 2, the lower end of the third connecting rod 2221 is equipped with the second inwardly projecting rotary shaft 24, it is described
The second mounting hole 51, second mounting hole 51 and 24 pivot of the second rotary shaft are equipped on the right side of the front end of the shell 50 of optical module
Axis connection.
Referring to figure 2. to Fig. 5, in the present embodiment, the first of the first connecting rod 2211 of the first rotating arm 221
Rotary shaft 23 and the second rotary shaft 24 of the third connecting rod 2221 of second rotating arm 222 are symmetrical set, described
First mounting hole and second mounting hole 51 symmetrically connect.
Referring to figure 2. and Fig. 6, the reciprocating movement portion 12 include the second connecting rod with the first rotating arm 221
Second end 2214 connect first movement portion 121, the second end 2224 with the fourth link of second rotating arm 222
Second moving portion 122 of connection, and it is fixedly connected on the top in first movement portion 121 and the top of second moving portion 122
Interconnecting piece 123 between portion, the first movement portion 121 and second moving portion 122 are symmetrical set.
Referring to figure 2., the left side of the shell 50 of the optical module is equipped with guide the first movement portion 121 mobile first
Groove (not shown), the first movement portion 121 are slidedly arranged in the first groove.
Referring to figure 2., the right side of the shell 50 of the optical module is equipped with guide second moving portion 122 mobile second
Groove 52, second moving portion 122 are slidedly arranged in the second groove 52.
Referring to figure 3., Fig. 4 and Fig. 6, the second end 2214 of the second connecting rod 2212 are equipped with outwardly projecting first unlock
The front end left side of axis 25, the first movement portion 121 is equipped with the first connecting hole 1211, and first latch release shaft 25 is arranged in described
In first connecting hole 1211.
Referring to figure 3., Fig. 5 and Fig. 6, the second end 2224 of the fourth link 2222 are equipped with outwardly projecting second unlock
The front end right side of axis 26, second moving portion 122 is equipped with the second connecting hole 1221, and second latch release shaft 26 is arranged in described
In second connecting hole 1221.
In the present embodiment, the of the first latch release shaft 25 of the second end 2214 of the second connecting rod and the fourth link
Second latch release shaft 26 at two ends 2224 is symmetrical set, the first connecting hole 1211 of the front end in the first movement portion 121 with
Second connecting hole 1221 of the front end of second moving portion 122 is symmetrical set.
Fig. 6 and Fig. 7 are please referred to, in the present embodiment, the reset components 30 are preferably compressed spring, the reset components
30 include the first compressed spring 31 and the second compressed spring 32.
The middle part in the first movement portion 121 is equipped with the first inwardly projecting fastener 1212, first fastener
It is formed between 1212 and the shell 50 of the optical module the first accommodating cavity (not shown), first compressed spring 31 is set to the
In one accommodating cavity and it is crimped between the antetheca and first fastener 1212 of the first accommodating cavity of the optical module.
Fig. 6 and Fig. 7 are please referred to, the middle part of second moving portion 122 is equipped with the second inwardly projecting fastener 1222, institute
It states and is formed between the second fastener 1222 and the shell 50 of the optical module the second accommodating cavity (not shown), second compression
Spring 32 is set in the second accommodating cavity and is crimped on the antetheca and second fastener of the second accommodating cavity of the optical module
Between 1222.
Fig. 6 and Fig. 8 are please referred to, there are two second locking part (11) sets, one in second locking part (11)
Set on the rear side of the first movement portion (121), another in second locking part (11) is set to second moving portion
(122) rear side, second locking part 11 include the cambered surface protrusion of recessed portion 111 and the rear side positioned at the recessed portion 111
Portion 112, the first locking part 40 on cage be and the recessed portion 111 is matched compresses elastic plate, it is described compress elastic plate before
Side is set on the cage, and the rear inward for compressing elastic plate is obliquely installed.
In the present embodiment, the elastic plate that compresses is two and is oppositely arranged in the cage or so, described second
When locking part 11 and first locking part 40 lock, the recessed portion for compressing elastic plate and being located at first locking part 40
In 111, and compresses the rear end of elastic plate and the front side of the cambered surface lug boss 112 and offset, second locking part 11 and institute
The connection status for stating the first locking part 40 is stablized;
When the reciprocating movement portion 12 moves forward, the cambered surface lug boss 112 is moved forward, the cambered surface lug boss
112 occur opposite sliding with the rear side for compressing elastic plate, so that the rear side for compressing elastic plate compresses elasticity with described
The front side of plate is the inside and outside rotation in axle center, until the cambered surface lug boss 112 is detached from the rear side for compressing elastic plate, thus described
Second locking part 11 is unlocked from the first locking part 40 on the cage.
On the other hand, the utility model also provides a kind of optical module 100, including shell 50 and light described in the utility model
Module unlocking resetting device, wherein the reciprocating movement portion 12 of the mobile locking solution lock section 10 of optical module unlocking resetting device is arranged
It is moved at the planned orbit on the shell 50 of optical module, the rotation pulling portion 20 of optical module unlocking resetting device is freely to rotate
It is connected to the outside of the shell 50 of optical module.
The working principle of the present embodiment are as follows:
The unlocking process of optical module unlocking resetting device: after optical module is in insertion cage, rotation pulling portion 20 is in lock
Positioning is set, and the handgrip 21 of rotation pulling portion 20 is pulled along, and handgrip 21 rotates forward, rotates the interpreter in pulling portion 20
Structure 22 drives reciprocating movement portion 12 to move forward, so that the second locking part 11 is detached from first locking part 40, completes unlock, real
Existing hot plug.The first fastener 1212 and the second fastener 1222 are during reciprocating movement portion 12 moves forward to multiple simultaneously
Position component 30 is compressed, and reset components 30 are in elastic compression.
The reseting procedure of optical module unlocking resetting device: optical module described in the utility model unclamps rotation after completing unlock
Turn pulling portion 20, reset components 30 backward apply the first fastener 1212 and the second fastener 1222 under own resilient effect
Power forces reciprocating movement portion 12 to be moved backward, and reciprocating movement portion 12 drives rotation pulling portion by the switching mechanism 22
20 rotate backward, to rotate pulling portion 20 and reciprocating movement portion 12 returns to state before unlock, complete to rotate pulling portion 20
With the reset in reciprocating movement portion 12.
Therefore, being pulled along handgrip 21 can be realized the second locking part 11 and in cage first in reciprocating movement portion 12
The unlock of locking part 40, so that optical module 100 be extracted out of cage;
Handgrip 21 is unclamped, under the elastic force effect of reset components 30, reciprocating movement portion 12 is moved backward.And drive with
The handgrip 21 of 12 front end of reciprocating movement portion connection rotates backward reset, so that the plug of the optical module is easy to operate and fast
It is prompt.
Implement the beneficial effects of the utility model to include at least:
By pulling the handgrip of rotation pulling portion, the rotation of handgrip is converted into moving by the switching mechanism for rotating pulling portion
The reciprocating movement portion of dynamic locking solution lock section is in the movement for extracting direction, thus by the second locking part of mobile locking solution lock section from cage
It is unlocked in the first locking part on son, the reciprocating movement portion of the mobile locking solution lock section of reset components driving is mobile multiple to direction of insertion
Position, the utility model structure is simple, and the plug of optical module is easy to operate and quick, while connection status is stablized, and usage experience is come
Well.
In the description of the present invention, it should be understood that term " first ", " second " etc. are used for description purposes only,
It is not understood to indicate or imply relative importance.For the ordinary skill in the art, it can be managed with concrete condition
Solve the concrete meaning of above-mentioned term in the present invention.In addition, in the description of the present invention, unless otherwise indicated, it is " more
It is a " it is meant that two or more.
While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that:
These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective
And modification, the scope of the utility model are defined by the claims and their equivalents.