CN209148909U - XFP optical module tripper - Google Patents

Abstract

The utility model relates to a kind of XFP optical module trippers comprising main body, unlock piece, pull ring and spring；Unlock piece includes the first plate and the second plate, first plate is positioned opposite in main body two sides and the first plate is along main body length direction and main body slidable fit, second plate is located above the first plate, second plate is set between the first plate and is fitted in main body, the slidingsurface in main body is perpendicular with the first plate on the surface that second plate is bonded with main body, pull ring is u-shaped, pull ring is set between body end and unlock piece and pull ring is connect with subject activity, spring is oppositely arranged in the two sides of main body, spring is horizontally disposed along the length direction of main body, one end of spring is fixed in main body and spring fixed end and pull ring are mutually close, the other end of spring is move freely, spring resets after sliding in main body to unlock piece.The utility model has the effect of to automatically reset after unlocking XFP optical module with less structural member and relatively simple mechanical release principle.

Description

XFP optical module tripper

Technical field

The utility model relates to the technical fields of XFP optical module tripper, unlock more particularly, to a kind of XFP optical module Device.

Background technique

As China increases 4G mobile communication, the process of fiber to the home and the integration of three networks, broadband optical fiber communication network network is Enter extensive laying and deployment phase.As one of the core devices for promoting Networks of Fiber Communications bandwidth, light is received and dispatched in optic communication Module is also towards higher speed, more low-power consumption, more inexpensive and miniaturization.The high-speed of XFP optical module and hot plug are special Property have become at present in network bandwidth a solution be widely used during upgrading, the included tripper of XFP optical module Optical module can be made smoothly to deviate from from the cage of system board, but in Networked E-Journals and scene in use, optical module can be through The use of hot plug many times is gone through, therefore, it is whole that the quality of XFP optical module unlocking structure device design will directly influence optical module The service life of body and whether meet the network equipment scene fast use and test.Its structural member of usual tripper is more, Unlocking mechanism is cumbersome or cannot automatically reset, high production cost.

Utility model content

Made the purpose of the utility model is to provide a kind of with less structural member and relatively simple mechanical release principle The XFP optical module tripper that can be automatically reset after the unlock of XFP optical module.

The purpose of the utility model is to provide a kind of XFP optical module tripper, including main body, unlock piece, pull ring and Spring；

The unlock piece includes the first plate and the second plate, and first plate is positioned opposite and described in the main body two sides Along the main body length direction and the main body slidable fit, second plate is located above first plate first plate, described Second plate is set between first plate and is bonded on the body, the surface and institute that second plate is bonded with the main body Stating the first plate, slidingsurface is perpendicular on the body, and the pull ring is u-shaped, and the pull ring is set to the body end Between the unlock piece and the pull ring is connect with the subject activity, and the spring is set relatively in the two sides of the main body It sets, the spring is horizontally disposed along the length direction of the main body, and one end fixation of the spring is on the body and described Spring fixed end and the pull ring are mutually close, and the other end of the spring is move freely, and the spring is to unlock piece in main body It is resetted after sliding.

By using above-mentioned technical proposal, when the cage of XFP optical module insertion system board, the second plate is jacked up in cage Reed enter optical module in the slot of board, and XFP optical module is fixed in cage；When XFP optical module is needed from being When extracting in the cage of system board, pull ring is pulled to make pull ring with respect to body rotation, pull ring drives the second plate to jack up the spring in cage Piece, while driving unlock piece to slide in main body wall, and then realize and extract XFP optical module from the cage of system board, XFP optical module under the action of the spring automatically resets unlock piece and pull ring after extracting in the cage of system board；With it is existing Technology is compared, and passes through the setting of main body, unlock piece, pull ring and spring in the utility model, with less structural member and phase It can automatically reset after unlocking XFP optical module simple mechanical release principle.

The utility model is further arranged to: the slidable fit of the unlock piece on the body includes the first sliding Portion, first sliding part include first sliding groove and the first sliding block, and the first sliding groove is set in the body end and edge The main body length direction transversely and horizontally arranges that first sliding block is set on first plate and first sliding block is by described First plate is longitudinally oriented the first sliding groove in internal buckle shape.

By using above-mentioned technical proposal, when pulling pull ring, pull ring is made to drive unlock piece in main body with respect to body rotation Upper sliding, the first sliding block is in first sliding groove towards body end sliding until XFP optical module unlocks；When XFP optical module unlocks Afterwards, under the action of the spring, the first sliding block slides in first sliding groove backwards to body end, and finally, the first sliding block is located at initial Position.

The utility model is further arranged to: the slidable fit of the unlock piece on the body further includes the second sliding Portion, second sliding part include second sliding slot and the second sliding block, and the second sliding slot is set in the main body and along described Main body length direction transversely and horizontally arranges that the second sliding slot is set to the first sliding groove side, and second sliding block is set to institute State on the first plate and second sliding block by first plate vertically towards the second sliding slot.

By using above-mentioned technical proposal, when pulling pull ring, pull ring is made to drive unlock piece in main body with respect to body rotation Upper sliding, the second sliding block is in second sliding slot towards body end sliding until XFP optical module unlocks；When XFP optical module unlocks Afterwards, under the action of the spring, the second sliding block slides in second sliding slot backwards to body end, and finally, the second sliding block is located at initial Position.

The utility model is further arranged to: the slidable fit of the unlock piece on the body further includes third sliding Portion, the third sliding part include third sliding slot and third sliding block, and the third sliding slot is set in the main body and described the Three sliding slots are positioned opposite in first plate two sides, and the third sliding block is adapted with the third sliding slot and the third sliding block It is positioned opposite in the vertical two sides of first plate.

By using above-mentioned technical proposal, pull ring is made to drive unlock piece in main body with respect to body rotation when pulling pull ring Sliding, third sliding block is in third sliding slot towards the body end sliding where pull ring until XFP optical module unlocks；XFP optical mode After block unlock, under the action of the spring, body end sliding of the third sliding block in third sliding slot where the pull ring, final the Three sliding blocks are located at initial position.

The utility model is further arranged to: the two sides of the main body are equipped with undercut, and the spring is transversely and horizontally arranged in In the undercut, first plate is equipped with the convex block for being longitudinally oriented the undercut, the convex block and the spring movable end phase It is arranged close to.

By using above-mentioned technical proposal, installation foundation on the one hand is provided for the installation fixation of spring, is on the other hand XFP Automatically reseting after optical module unlock provides required primary condition.

The utility model is further arranged to: the pull ring includes shaft hole, blocked hole and circular hole；

The shaft hole and the blocked hole are vertically set to the two sides of the first sliding groove, and the circular hole is set to described turn The side of axis hole and the blocked hole, the circular hole are passed through for first sliding block and are connect with the first sliding groove, the master It is correspondingly arranged on fixing axle on body with the shaft hole, is correspondingly arranged on micro-protrusions with the blocked hole in the main body.

It is on the one hand sliding by the cooperation of shaft hole and fixing axle and circular hole and first by using above-mentioned technical proposal Block matches the rotation offer rotation basis for being combined into pull ring relative to main shaft, is combined into matching between another aspect blocked hole and micro-protrusions Being fixedly connected between pull ring and main body provides a more stable connection basis.

The utility model is further arranged to: first plate is equipped with arcuation protrusion, the master far from described pull ring one end The groove for the arcuation protrusion grafting is correspondingly arranged on body.

By using above-mentioned technical proposal, the setting of arcuation protrusion and groove, which can enhance between unlock piece and main body, to be connected Bonding strength between the two when fixed.

The utility model is further arranged to: the main body includes pedestal and upper cover, and the pedestal and the upper cover can The formula of tearing open assemblies main body.

By using above-mentioned technical proposal, on the one hand it is convenient for the installing and dismounting of main body, is on the other hand convenient for the processing of main body The processing and fabricating of second sliding slot and third sliding slot in production and main body.

In conclusion the advantageous effects of the utility model are as follows:

1. pull pull ring to make pull ring with respect to body rotation when XFP optical module needs are extracted from the cage of system board, Pull ring drives the second plate to jack up the reed in cage, while driving unlock piece to slide in main body wall, and then realize XFP Optical module is extracted from the cage of system board, and XFP optical module, under the action of the spring will solution after extracting in the cage of system board Latch fitting and pull ring automatically reset；Compared with prior art, pass through main body, unlock piece, pull ring and spring in the utility model Setting, with less structural member and relatively simple mechanical release principle make XFP optical module unlock after can automatically reset；

2. the two sides of the main body are equipped with undercut, the spring is transversely and horizontally arranged in the undercut, first plate It is equipped with the convex block for being longitudinally oriented the undercut, the convex block is mutually arranged close to the spring movable end.It on the one hand is spring Installation it is fixed installation foundation is provided, on the other hand provide required primary condition for automatically reseting after the unlock of XFP optical module.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of unlock piece in the utility model.

Fig. 3 is the structural schematic diagram of main body in the utility model.

Fig. 4 is the structural schematic diagram of pull ring in the utility model.

Fig. 5 is the perspective view of the explosion of main body in the utility model.

In figure, 1, main body；11, undercut；12, fixing axle；13, micro-protrusions；14, groove；2, unlock piece；21, the first plate； 211, convex block；212, arcuation protrusion；22, the second plate；3, pull ring；31, shaft hole；32, blocked hole；33, circular hole；4, spring； 51, first sliding groove；52, the first sliding block；61, second sliding slot；62, the second sliding block；71, third sliding slot；72, third sliding block；8, bottom Seat；9, upper cover.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

It is a kind of XFP optical module tripper disclosed by the utility model, including main body 1, solution in conjunction with shown in Fig. 1 and Fig. 3 Latch fitting 2, pull ring 3 and spring 4.Referring to Fig. 2, unlock piece 2 includes the first plate 21 and the second plate 22.First plate 21 is in main body 1 Two sides are positioned opposite and the first plate 21 is along 1 length direction of main body and 1 slidable fit of main body, and the second plate 22 is located on the first plate 21 Side, the second plate 22 are set between the first plate 21 and are bonded on the body 1, the surface and the first plate that the second plate 22 is bonded with main body 1 21 on the body 1 slidingsurface it is perpendicular, pull ring 3 is u-shaped, and being set to for pull ring 3 between 1 end of main body and unlock piece 2 and is drawn Ring 3 is flexibly connected with main body 1, and spring 4 is oppositely arranged in the two sides of main body 1, and spring 4 is horizontally disposed along the length direction of main body 1, One end of spring 4 is fixed on the body 1 and 4 fixing end of spring and pull ring 3 are mutually close, and the other end of spring 4 is move freely, spring 4 pairs of unlock pieces 2 reset after sliding on the body 1.

The implementation principle of the present embodiment are as follows: when the cage of XFP optical module insertion system board, the second plate 22 jacks up cage Interior reed enters optical module in the slot of board, and XFP optical module is fixed in cage；When XFP optical module need from When extracting in the cage of system board, pull ring 3 is pulled to rotate pull ring 3 relative to main body 1, pull ring 3 drives the second plate 22 to jack up cage Reed in son, while driving unlock piece 2 in 1 slide over side walls of main body, and then realize the cage by XFP optical module from system board It is extracted in son, XFP optical module in the cage of system board after extracting, under the action of spring 4 certainly by unlock piece 2 and pull ring 3 It is dynamic to reset；Compared with prior art, in the utility model by the setting of main body 1, unlock piece 2, pull ring 3 and spring 4, with compared with Few structural member and relatively simple mechanical release principle can automatically reset after unlocking XFP optical module.

Referring to Fig. 2, the first plate 21 is equipped with arcuation protrusion 212 far from 3 one end of pull ring.Arcuation protrusion 212 is in the hand to internal buckle Shape is correspondingly arranged on the groove 14 for raised 212 grafting of arcuation in main body 1.Arcuation protrusion 212 and the setting of groove 14 can increase Bonding strength between the two when being connected and fixed between strong solution latch fitting 2 and main body 1.

In conjunction with shown in Fig. 2 and Fig. 3, the slidable fit of unlock piece 2 on the body 1 includes the first sliding part, the first sliding part Including first sliding groove 51 and the first sliding block 52.First sliding groove 51 is set on 1 end of main body and along 1 length direction transverse direction water of main body Plain cloth is set, and the first sliding block 52 is set on the first plate 21 and the first sliding block 52 by the first plate 21 is longitudinally oriented first sliding groove 51 in internal buckle Shape.When pulling pull ring 3, rotates pull ring 3 relative to main body 1 and unlock piece 2 is driven to slide on the body 1, the first sliding block 52 exists Towards the sliding of 1 end of main body until XFP optical module unlocks in first sliding groove 51；After the unlock of XFP optical module, in the work of spring 4 Under, the first sliding block 52 is slided in first sliding groove 51 backwards to 1 end of main body, and finally, the first sliding block 52 is located at initial position；And And first sliding block 52 be adapted with first sliding groove 51, assembly between the two is connected and fixed between unlock piece 2 and main body 1 A part.

In conjunction with shown in Fig. 2 and Fig. 3, the slidable fit of unlock piece 2 on the body 1 further includes the second sliding part, the second sliding Portion includes second sliding slot 61 and the second sliding block 62.Second sliding slot 61 is set in main body 1 and along 1 length direction of main body transversely and horizontally Arrangement, second sliding slot 61 are set to 51 side of first sliding groove, and the second sliding block 62 is set on the first plate 21 and the second sliding block 62 is by first Plate 21 is vertically towards second sliding slot 61.When pulling pull ring 3, rotates pull ring 3 relative to main body 1 and drive unlock piece 2 on the body 1 Sliding, the second sliding block 62 is in second sliding slot 61 towards the sliding of 1 end of main body until XFP optical module unlocks；When XFP optical module solution After lock, under the action of spring 4, the second sliding block 62 is slided in second sliding slot 61 backwards to 1 end of main body, finally, the second sliding block 62 are located at initial position；Moreover, the second sliding block 62 is adapted with second sliding slot 61, assembly between the two is unlock piece 2 and master The a part being connected and fixed between body 1.

In conjunction with shown in Fig. 2 and Fig. 3, the slidable fit of unlock piece 2 on the body 1 further includes third sliding part, third sliding Portion includes third sliding slot 71 and third sliding block 72.Third sliding slot 71 is set in main body 1 and third sliding slot 71 is at 21 liang of the first plate Side is positioned opposite, and third sliding block 72 is adapted with third sliding slot 71 and third sliding block 72 is in the opposite cloth in the vertical two sides of the first plate 21 It sets.Rotating pull ring 3 relative to main body 1 drives unlock piece 2 to slide on the body 1, and third sliding block 72 is in third Towards 1 end of the main body sliding where pull ring 3 until XFP optical module unlocks in sliding slot 71；After the unlock of XFP optical module, in spring 4 Under the action of, third sliding block 72 is in third sliding slot 71 backwards to 1 end of the main body sliding where pull ring 3, final third sliding block 72 Positioned at initial position；Moreover, third sliding block 72 is adapted with third sliding slot 71, assembly between the two is unlock piece 2 and main body 1 Between a part for being connected and fixed.

Referring to Fig. 3, the two sides of main body 1 are equipped with undercut 11.Spring 4 is transversely and horizontally arranged in undercut 11, on the first plate 21 Equipped with the convex block 211 for being longitudinally oriented undercut 11, convex block 211 is mutually arranged close to 4 movable end of spring.It on the one hand is the peace of spring 4 Dress is fixed to provide installation foundation, on the other hand provides required primary condition for automatically reseting after the unlock of XFP optical module, and The setting of convex block 211 can also enhance the bonding strength between main body 1 and unlock piece 2.

It when pulling pull ring 3, rotates pull ring 3 relative to main body 1, drives unlock piece 2 to slide on the body 1, to make convex Block 211 contradicts the movable end of spring 4, compresses spring 4 from movable end to fixing end；After the unlock of XFP optical module, unclamps and draw Ring 3 makes unlock piece 2 and draws under the action of the elastic potential energy that spring 4 is stored from movable end into fixing end compression process Ring 3 automatically resets after the unlock of XFP optical module.

Referring to Fig. 4, pull ring 3 includes shaft hole 31, blocked hole 32 and circular hole 33.Shaft hole 31 and blocked hole 32 are vertical Set on the two sides of first sliding groove 51, circular hole 33 is set to the side of shaft hole 31 and blocked hole 32, and circular hole 33 supplies the first sliding block 52 pass through and connect with first sliding groove 51, are correspondingly arranged on fixing axle 12 in main body 1 with shaft hole 31, in main body 1 with blocked hole 32 It is correspondingly arranged on micro-protrusions 13.On the one hand pass through the cooperation of shaft hole 31 and fixing axle 12 and circular hole 33 and the first sliding block 52 it is basic with being combined into pull ring 3 with respect to the rotation of main shaft and providing rotation, between another aspect blocked hole 32 and micro-protrusions 13 A more stable connection basis is provided with being fixedly connected between pull ring 3 and main body 1 is combined into.In the present invention, miniature The thickness of protrusion 13 influences the pulling of pull ring 3 between 0.15mm, making micro-protrusions 13 not 0.05；In other embodiments, The thickness of micro-protrusions 13 can also be 0.04mm, 0.16mm, 0.17mm and 0.18mm.

First sliding block 52 in first sliding groove 51 skidding distance, sliding of second sliding block 62 in second sliding slot 61 away from Circumferential lengths from, skidding distance and circular hole 33 of the third sliding block 72 in third sliding slot 71 can make pull ring 3 drive second The reed that plate 22 jacks up in cage unlocks XFP optical module.

Referring to Fig. 5, main body 1 includes pedestal 8 and upper cover 9, pedestal 8 with upper cover 9 is removable assemblies main body 1.One side The installing and dismounting of main body 1 is convenient in face, on the other hand convenient for second sliding slot 61 and the in the processing and fabricating of main body 1 and main body 1 The processing and fabricating of three sliding slots 71.Removable assembly is realized by four bolts between pedestal 8 and upper cover 9.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. a kind of XFP optical module tripper, which is characterized in that including main body (1), unlock piece (2), pull ring (3) and spring (4)；

The unlock piece (2) includes the first plate (21) and the second plate (22), and first plate (21) is in the main body (1) two sides Positioned opposite and described first plate (21) is along the main body (1) length direction and the main body (1) slidable fit, second plate (22) it is located above first plate (21), second plate (22) is set between first plate (21) and is fitted in the master On body (1), the surface that second plate (22) is bonded with the main body (1) is with first plate (21) on the main body (1) Slidingsurface is perpendicular, and the pull ring (3) is u-shaped, and the pull ring (3) is set to the main body (1) end and the unlock Between part (2) and the pull ring (3) is flexibly connected with the main body (1), two sides phase of the spring (4) in the main body (1) To setting, the spring (4) is horizontally disposed along the length direction of the main body (1), and one end of the spring (4) is fixed on described In main body (1) and the spring (4) fixing end and the pull ring (3) are mutually close, and the other end of the spring (4) is move freely, The spring (4) resets after sliding on main body (1) to unlock piece (2).

2. XFP optical module tripper according to claim 1, which is characterized in that the unlock piece (2) is in the main body (1) slidable fit on includes the first sliding part, and first sliding part includes first sliding groove (51) and the first sliding block (52), The first sliding groove (51) is set on the main body (1) end and transversely and horizontally arranges along the main body (1) length direction, described First sliding block (52) is set on first plate (21) and first sliding block (52) by first plate (21) is longitudinally oriented institute First sliding groove (51) are stated in internal buckle shape.

3. XFP optical module tripper according to claim 2, which is characterized in that the unlock piece (2) is in the main body (1) slidable fit on further includes the second sliding part, and second sliding part includes second sliding slot (61) and the second sliding block (62), the second sliding slot (61) is set on the main body (1) and transversely and horizontally arranges along the main body (1) length direction, institute Second sliding slot (61) are stated set on the first sliding groove (51) side, second sliding block (62) be set on first plate (21) and Second sliding block (62) is by first plate (21) vertically towards the second sliding slot (61).

4. XFP optical module tripper according to claim 3, which is characterized in that the unlock piece (2) is in the main body (1) slidable fit on further includes third sliding part, and the third sliding part includes third sliding slot (71) and third sliding block (72), the third sliding slot (71) is set on the main body (1) and the third sliding slot (71) is in the first plate (21) two sides Positioned opposite, the third sliding block (72) is adapted with the third sliding slot (71) and the third sliding block (72) is described first The vertical two sides of plate (21) are positioned opposite.

5. XFP optical module tripper according to claim 1, which is characterized in that the two sides of the main body (1) are equipped with dark Slot (11), the spring (4) are transversely and horizontally arranged in the undercut (11), and first plate (21) is equipped with and is longitudinally oriented institute The convex block (211) of undercut (11) is stated, the convex block (211) is mutually arranged close to the spring (4) movable end.

6. XFP optical module tripper according to claim 2, which is characterized in that the pull ring (3) includes shaft hole (31), blocked hole (32) and circular hole (33)；The shaft hole (31) and the blocked hole (32) are vertically set to described first The two sides of sliding slot (51), the circular hole (33) are set to the side of the shaft hole (31) and the blocked hole (32), the circle Arc hole (33) for first sliding block (52) pass through is connect with the first sliding groove (51), on the main body (1) with the shaft Hole (31) is correspondingly arranged on fixing axle (12), is correspondingly arranged on micro-protrusions with the blocked hole (32) on the main body (1) (13)。

7. XFP optical module tripper according to claim 1, which is characterized in that first plate (21) is far from described Pull ring (3) one end is equipped with arcuation protrusion (212), is correspondingly arranged on the main body (1) for raised (212) grafting of the arcuation Groove (14).

8. XFP optical module tripper according to claim 1, which is characterized in that the main body (1) includes pedestal (8) And upper cover (9), the pedestal (8) with the upper cover (9) are removable assemblies main body (1).