CN110883542A - Optical fiber splice's equipment mechanism - Google Patents

Abstract

The invention relates to an assembly mechanism of an optical fiber connector, which comprises a frame, a conveying device, a main body feeding device, a terminal insertion device, a sealing cover insertion device and an insertion sheet insertion device, wherein the insertion sheet insertion device comprises an insertion sheet insertion movable cylinder which is connected with an insertion sheet insertion movable seat, the insertion sheet insertion movable seat is provided with an insertion sheet insertion cylinder, the insertion sheet insertion cylinder is connected with an insertion sheet insertion push block, the insertion sheet insertion push block is provided with an insertion sheet gripper matched with an insertion sheet conveying groove on the frame, the insertion sheet gripper comprises an insertion sheet lower gripping block fixed on the insertion sheet insertion push block, the side surface of the insertion sheet lower gripping block is provided with a gripping material blocking block, the end part of the insertion sheet lower gripping block is provided with a square notch, the end part of the gripping material blocking block does not exceed the insertion sheet lower gripping block, and the insertion sheet insertion drawing push block is provided with, the clamping cylinder is connected with the upper clamping block, so that the overall assembly efficiency is improved.

Description

Optical fiber splice's equipment mechanism

Technical Field

The invention relates to the field of optical fibers, in particular to an assembling mechanism of an optical fiber connector.

Background

Along with the high-speed development of internet, optic fibre's application is also increasingly wide, the indispensable part in optic fibre the inside is optical fiber splice, as shown in fig. 2, optical fiber splice includes main part 11, the socket has been seted up in the main part, need insert main part 11 from the socket with terminal 12, and make the most advanced of terminal wear out main part 11, then close cap 13 with the terminal chucking in the dress, later insert 14 the middle part of main part 11 again, the sloping block that makes the opening of inserted sheet and main part 11 side cup joints and realizes the chucking, current inserted sheet equipment mostly all adopts the manual work to insert, mainly be the lamellar body, appear bending easily when inserting through mechanical structure, also lead to the lamellar body to incline at vertical direction and horizontal direction easily simultaneously, influence the precision of pegging graft.

Disclosure of Invention

The invention aims to provide an assembling mechanism of an optical fiber connector, which can realize stable and accurate automatic insertion of a sheet body through the specific structural design of a sheet body inserting device, further realize continuous automatic assembly of the optical fiber connector and improve the overall assembly efficiency.

In order to achieve the above purpose, the invention adopts the technical scheme that: an assembly mechanism of an optical fiber connector comprises a frame, wherein a conveying device matched with a main body is arranged on the frame, a main body feeding device is matched with the starting end of the conveying device, two matching ports for assembling a terminal and a sealing cover and an inserting piece port for inserting an inserting piece are sequentially formed in the rear side of the conveying device along the conveying direction, the two matching ports are respectively matched with a terminal inserting device and a sealing cover inserting device, the inserting piece port is matched with an inserting piece inserting device, the inserting piece inserting device comprises an inserting piece inserting movable cylinder which is arranged on the frame and has the same trend with the conveying device, the inserting piece inserting movable cylinder is connected with an inserting piece inserting movable seat, an inserting piece inserting cylinder is arranged on the inserting piece inserting movable seat, the inserting piece inserting cylinder is connected with an inserting piece inserting push block, and an inserting piece holder matched with an inserting piece conveying groove on the frame is arranged on the inserting piece push block, inserted sheet holder including fixing under the inserted sheet that the inserted sheet inserted on the ejector pad grip block, the inserted sheet under the side of grip block be provided with centre gripping and keep off the material piece, the inserted sheet under the tip of grip block seted up square breach, and the tip that keeps off the material piece does not exceed grip block under the inserted sheet, inserted sheet picture ejector pad on set up and have vertical orientation's centre gripping cylinder, centre gripping cylinder be connected with the grip block, the tip downside of last grip block be provided with under the inserted sheet the square breach highly uniform vertical fixture block on the grip block, and the thickness of vertical fixture block and the thickness of inserted sheet sum unanimous with the width of direction breach.

Preferably, the inserting piece inserting movable seat is further provided with two inserting piece inserting limiting blocks matched with the inserting piece inserting pushing block.

Preferably, the terminal insertion device comprises a terminal insertion groove which is in a front-back direction and is butted with the matching port, the side surface of the terminal insertion groove is matched with a terminal conveying groove which is a groove body matched with the terminal structure and used for horizontally conveying the terminal, the rear end of the terminal insertion groove is provided with a terminal insertion cylinder which is connected with a terminal insertion pushing assembly, the terminal insertion pushing assembly comprises a terminal insertion movable block which is connected with a terminal insertion pushing rod with the height consistent with that of the terminal block body, the terminal insert on the movable block still have the terminal to insert the briquetting through terminal insert spring coupling, the terminal insert the lower surface of briquetting tangent with the terminal inserts the catch bar, and the terminal inserts the spring and is in original length, the terminal inserts the briquetting and surpasss the terminal and inserts the catch bar.

Preferably, the terminal conveying groove is matched with a terminal shaping device, the terminal shaping device comprises a terminal shaping cylinder which is arranged below the terminal conveying groove and is vertical to the terminal conveying groove, the terminal shaping cylinder is connected with a terminal shaping movable block, the terminal shaping movable block is connected with a terminal shaping block which can be inserted into the terminal conveying groove through a terminal shaping connecting rod, a terminal shaping groove is formed in the terminal shaping block, the number and the position of the terminal shaping groove are consistent with those of contact pins on a terminal, and when the terminal shaping block is inserted into the deepest position of the terminal conveying groove, the terminal shaping groove and the contact pins of the terminal still have gaps.

Preferably, the terminal insert the position side that is close to the terminal conveyer trough and seted up the terminal and detect the mouth, the terminal detect the mouth cooperation have the terminal to detect the inserted block, the terminal detect the inserted block be connected with the terminal and detect and push into the cylinder, the terminal detect the inserted block be close to one side that the terminal inserted the cylinder and be provided with the terminal and detect the touch-sensitive screen, the terminal insertion groove be located the terminal and detect the relative position of mouth and be provided with the waste material export, the waste material export the ladder mouth for matching with the terminal shape, and the waste material exit linkage has the garbage collection box.

Preferably, the sealing cover inserting device comprises a sealing cover inserting groove which is in butt joint with the matching port and moves forwards and backwards, a sealing cover conveying groove is communicated with the side face of the sealing cover inserting groove, a sealing cover inserting cylinder is arranged at the rear end of the sealing cover inserting groove, and the sealing cover inserting cylinder is connected with a sealing cover inserting push block.

Preferably, conveyor including setting up the conveyer trough in the frame, the lower part of conveyer trough be provided with the conveyer trough parallel and level carry the feeding piece, the transport feeding piece be connected with carry the feeding cylinder, the transport feeding piece on even be provided with carry the jump ring, the transport jump ring be connected with carry and impel the commentaries on classics piece, the transport impel the upper portion of commentaries on classics piece be the inclined plane, and be close to and carry terminal one side to be the high side, when not having the exogenic action, carry to impel the commentaries on classics piece to be in vertical state, and can only follow the low point and rotate to the high point direction this moment, the preceding curb plate inboard of conveyer trough seted up with the terminal wear out part complex terminal cooperation groove and with inserted sheet complex inserted sheet cooperation groove.

Preferably, the frame on still be provided with the positioner that position and terminal insertion device, closing cap insertion device and inserted sheet insertion device match, positioner including setting up the screens cylinder that moves towards around in the frame, the screens cylinder be connected with the screens movable block that can penetrate the conveyer trough in, the screens movable block seted up with main part complex card silo, and the lateral wall in card silo set up with the screens top tight movable groove of card silo intercommunication, screens top tight movable groove in be provided with screens top tight spring, screens top tight spring coupling have screens top tight movable block, screens top tight movable block be connected with screens top tight block, screens top tight block be located the card silo, and screens top tight spring do not have when exogenic action, screens top tight block surpasss the screens movable block.

Preferably, the main body feeding device comprises a main body feeding conveying groove arranged on the frame, the main body feeding conveying groove is matched with a main body transferring seat, and the main body transferring seat is butted with the starting end of the conveying groove by the pushing of a main body transferring cylinder.

Drawings

FIG. 1 is a schematic structural diagram of an assembly mechanism for an optical fiber splice;

FIG. 2 is a schematic view of an assembled optical fiber splice;

FIG. 3 is a perspective view of the insert insertion device;

FIG. 4 is a perspective view of the tab holder;

FIG. 5 is a schematic perspective view of the conveying device and the main body loading device;

FIG. 6 is a perspective view of the locking device;

FIG. 7 is a top view of the detent mechanism;

FIG. 8 is a cross-sectional view A-A of FIG. 7;

fig. 9 is a schematic structural view of the terminal insertion device;

fig. 10 is a schematic structural view of a terminal insertion pushing assembly;

fig. 11 is a schematic structural view of the terminal shaping device;

fig. 12 is a schematic view of the structure of the cap inserting apparatus.

The text labels shown in the figures are represented as: 1. a frame; 2. a conveying device; 3. a main body feeding device; 4. a positioning device; 5. a terminal insertion device; 6. a closure insertion device; 7. an insert insertion device; 11. a main body; 12. a terminal; 13. sealing the cover; 14. inserting sheets; 21. a conveying trough; 22. a terminal fitting groove; 23. conveying the feeding block; 24. conveying the clamp spring; 25. conveying a propelling rotating block; 26. a feed cylinder; 27. a main body feeding conveying groove; 28. a main body transfer cylinder; 29. a main body transfer base; 31. a clamping cylinder; 32. a clamping movable block; 33. a clamping and jacking block; 34. a clamping groove; 35. the clamping position tightly pushes the movable groove; 36. the clamping position tightly pushes the spring; 37. the clamping position tightly pushes the movable block; 41. a terminal insertion groove; 42. the terminal is inserted into the cylinder; 43. a terminal insertion pushing assembly; 44. a terminal conveying groove; 45. a terminal shaping device; 46. a terminal detection port; 47. the terminal is detected and pushed into the air cylinder; 48. a terminal detection insert; 49. the terminal detects the contact induction screen; 50. a waste outlet; 51. a waste collection box; 53. the terminal is inserted into the movable block; 54. the terminal is inserted into the pushing rod; 55. a terminal insertion spring; 56. the terminal is inserted into the pressing block; 57. a terminal shaping cylinder; 58. a terminal shaping movable block; 59. a terminal shaping link; 60. a terminal shaping block; 61. a terminal shaping groove; 62. a sealing cover insertion groove; 63. the sealing cover is inserted into the cylinder; 64. the sealing cover is inserted into the pushing block; 65. a capping conveyor channel; 71. the inserting sheet is inserted into the movable cylinder; 72. the inserting sheet is inserted into the movable seat; 73. the inserting sheet is inserted into the cylinder; 74. the inserting piece is inserted into the pushing block; 75. an insert gripper; 76. the inserting piece is inserted into the limiting block; 77. an inserting sheet conveying groove; 78. a lower insert clamping block; 79. clamping a material blocking block; 80. an upper clamping block; 81. and clamping the cylinder.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

As shown in fig. 1 to 4, the specific structure of the present invention is: an assembly mechanism of an optical fiber connector comprises a frame 1, wherein a conveying device 3 matched with a main body 11 is arranged on the frame 1, the starting end of the conveying device 3 is matched with the main body feeding device 3, the rear side of the conveying device 3 is sequentially provided with two matching ports for assembling a terminal and a sealing cover and an inserting sheet port for inserting an inserting sheet along the conveying direction, the two matching ports are respectively matched with a terminal inserting device 5 and a sealing cover inserting device 6, the inserting sheet port is matched with an inserting sheet inserting device 7, the inserting sheet inserting device 7 comprises an inserting sheet inserting movable cylinder 71 which is arranged on the frame 1 and is consistent with the moving direction of the conveying device 3, the inserting sheet inserting movable cylinder 71 is connected with an inserting sheet inserting movable seat 72, the inserting sheet inserting movable seat 72 is provided with an inserting sheet inserting cylinder 73, the inserting sheet inserting cylinder 73 is connected with an inserting and pushing block 74, the inserted sheet insert ejector pad 74 on be provided with frame 1 on the inserted sheet conveyer trough 77 complex inserted sheet holder 75, inserted sheet holder 75 including fixing under the inserted sheet that the inserted sheet inserted on ejector pad 74 grip block 78, the inserted sheet under the grip block 78 the side be provided with centre gripping material blocking block 79, the inserted sheet under the grip block 78 the tip seted up square breach, and centre gripping material blocking block 79's tip does not exceed grip block 78 under the inserted sheet, inserted sheet insert ejector pad 74 on set up the centre gripping cylinder 81 that has vertical trend, centre gripping cylinder 81 be connected with grip block 80, the tip downside of last grip block 80 be provided with under the inserted sheet on the grip block 78 the vertical fixture block of square breach height unanimity, and the thickness of vertical fixture block and inserted sheet 14 the thickness and the width unanimity of direction breach.

The operation is as follows, firstly, the main body 11 is placed on the conveying device 2 through the main body feeding device 3, then the main body 11 is conveyed to the terminal inserting station through the conveying device 2, the terminal 12 is inserted into the main body 11 through the terminal inserting device, then the main body is conveyed to the sealing cover inserting station, the sealing cover 13 is inserted into the main body 11 through the sealing cover inserting device 6, then the main body is continuously conveyed to the inserting sheet inserting station, the initial state of the inserting sheet inserting device is that the lower inserting sheet clamping block 78 is butted with the inserting sheet conveying groove 77, the first inserting sheet 14 enters the lower inserting sheet clamping block 78 and is blocked by the clamping material blocking block 79, then the upper clamping block 80 is driven to descend through the clamping cylinder 80, and then the rear side plate of the inserting sheet is clamped between the upper clamping block and the lower clamping block through the vertical clamping block to ensure that the rear side plate is not deviated, then the inserting sheet inserting movable cylinder, then the rethread inserted sheet inserts cylinder 73 and drives the terminal of inserted sheet holder centre gripping and insert in the inserted sheet mouth, because the existence of vertical fixture block, the inserted sheet can not insert completely, need loosen the inserted sheet holder earlier, make the inserted sheet insert cylinder 73 retract one section distance of contracting and have the refeeding, push into the lamellar body completely through vertical fixture block, adopt above-mentioned structure, can ensure the steady accurate of inserted sheet and insert, can realize the automation of inserted sheet and insert, and then very big improvement whole packaging efficiency.

As shown in fig. 3-4, the insert insertion movable seat 72 is further provided with two insert insertion limiting blocks 76 which are matched with the insert insertion pushing blocks 74.

Two inserted sheets insert the design of stopper 76, inject inserted sheet holder and inserted sheet conveyer trough complex position and the position when accomplishing to insert respectively, can ensure the accurate centre gripping of inserted sheet like this, also can avoid inserting the too big damage fiber splice of range simultaneously.

As shown in fig. 9-10, the terminal inserting device 5 includes a terminal inserting groove 41 which is butted with a matching port and runs forward and backward, a terminal conveying groove 44 is matched with the side surface of the terminal inserting groove 41, the terminal conveying groove 44 is a groove body which is matched with a terminal structure and enables a terminal to be conveyed horizontally, a terminal inserting cylinder 42 is arranged at the rear end of the terminal inserting groove 41, the terminal inserting cylinder 42 is connected with a terminal inserting pushing assembly 43, the terminal inserting pushing assembly 43 includes a terminal inserting movable block 53, the terminal inserting movable block 53 is connected with a terminal inserting pushing rod 54 which is consistent with the height of a terminal block body, the terminal inserting movable block 53 is further connected with a terminal inserting pressing block 56 through a terminal inserting spring 55, the lower surface of the terminal inserting pressing block 56 is tangent to the terminal inserting pushing rod 54, and the terminal inserting spring 55 is at the original length, the terminal insertion press block 56 goes beyond the terminal insertion push lever 54.

The terminal 12 enters the terminal insertion groove 41 after being conveyed by the terminal conveying groove 44, the block part of the terminal can be pressed by the terminal insertion pressing block 56, and further the terminal 12 can be ensured not to incline, then the terminal insertion cylinder is driven by the terminal insertion cylinder to drive the terminal to insert the movable block 53 to move, and further the terminal is driven to insert the push rod 54 and the terminal to insert the pressing block 56 to move, and further the terminal is ejected into the main body 11 from the matching opening, in the ejection process, because the terminal is inserted into the push rod 54 to push, the interference with the main body 11 can be ensured, and further the terminal can be ensured to be completely inserted, and the terminal insertion pressing block 56 can be intercepted, and further the terminal insertion spring 55 can be compressed, the insertion of the terminal can not be influenced, so the stable automatic insertion of the terminal can be.

As shown in fig. 11, the terminal conveying groove 44 is matched with a terminal shaping device 45, the terminal shaping device 45 comprises a terminal shaping cylinder 57 which is arranged below the terminal conveying groove 44 and is vertical to the terminal conveying groove 44, the terminal shaping cylinder 57 is connected with a terminal shaping movable block 58, the terminal shaping movable block 58 is connected with a terminal shaping block 60 which can be inserted into the terminal conveying groove 44 through a terminal shaping connecting rod 59, the terminal shaping block 60 is provided with terminal shaping grooves 61, the number and the positions of the terminal shaping grooves 61 are consistent with the number and the positions of pins on one terminal, and when the terminal shaping block 60 is inserted into the deepest position of the terminal conveying groove 44, gaps are left between the terminal shaping grooves 61 and the pins of the terminal.

When the terminal carries, the terminal can enter into terminal plastic station, can design into as shown in the figure the third terminal just be in terminal plastic station, then drive terminal plastic movable block 58 through terminal plastic cylinder 57 and give towards terminal conveyer trough 44, and then drive terminal plastic block 60 and insert in terminal conveyer trough 44, make the contact pin of terminal insert in terminal plastic groove 61, and then carry out the plastic to the contact pin of terminal, and then guarantee that the contact pin slope can not appear when the terminal inserts and lead to inserting the condition partially or even the rupture, when terminal plastic block 60 inserts terminal conveyer trough 44 deepest position, terminal plastic groove 61 and the contact pin of terminal are for still having the clearance, so the design, can avoid partly damaging the contact pin at the plastic stage.

As shown in fig. 9, the terminal is inserted 41 and is equipped with terminal detection port 46 near the side of the position of terminal conveying groove 44, terminal detection port 46 is matched with terminal detection insert block 48, terminal detection insert block 48 is connected with terminal detection push-in cylinder 47, one side of terminal detection insert block 48 near terminal insertion cylinder 42 is provided with terminal detection contact induction screen 49, terminal insertion groove 41 is located the position that terminal detection port 46 is relative and is provided with waste outlet 50, waste outlet 50 is the step mouth that matches with terminal 12 shape, and waste outlet 50 is connected with waste collection box 51.

When the terminal is inserted, the terminal detection push-in cylinder 47 can drive the terminal detection insertion block 48 to be inserted into the terminal insertion groove 41, then, the insertion operation of the terminal is performed, and the terminal is intercepted by the terminal detection block 48, and whether the sensing signal generated by each pin can be detected simultaneously on the touch sensing screen 49 is detected through the terminal, if the terminal can be detected, the pin of the terminal is proved to be flush and level, the terminal is qualified, the terminal is detected and pushed into the air cylinder 47 to return to the original position, the subsequent terminal inserting work is carried out, if the induction signals can not be detected, the terminals are proved to be unqualified, the terminals are firstly pushed into the air cylinder 47 to return to the original position through terminal detection, the terminals are then advanced by the terminal insertion cylinders 42 to a position where they abut the waste outlet 50, then the terminal detection push-in cylinder 47 drives the terminal detection plug 48 to push the terminal into the waste collection box 51.

As shown in fig. 12, the cap inserting device 6 includes a cap inserting slot 62 which is in a front-back direction and is butted with the mating port, a cap conveying slot 65 is communicated with a side surface of the cap inserting slot 62, a cap inserting cylinder 63 is arranged at a rear end of the cap inserting slot 62, and a cap inserting push block 64 is connected to the cap inserting cylinder 63.

The capping operation is as follows, firstly the capping 13 is fed into the capping insertion slot 62 through the capping conveying slot 65, then the capping insertion cylinder 63 drives the capping insertion push block 64 to push the capping into the main body 11 from the matching port, and the clamping is completed with the main body 11 through the barb structure of the capping itself.

As shown in fig. 5-6, the conveying device 2 includes a conveying trough 21 arranged on the frame 1, the lower part of the conveying trough 21 is provided with a conveying feeding block 23 parallel to the conveying trough 21, the conveying feeding block 23 is connected with a conveying feeding cylinder 26, the conveying feeding block 23 is uniformly provided with a conveying snap spring 24, the conveying snap spring 24 is connected with a conveying propelling rotating block 25, the upper part of the conveying propelling rotating block 25 is an inclined plane, one side close to the conveying end is a high side, when no external force is applied, the conveying propelling rotating block 25 is in a vertical state, and at the moment, the conveying propelling rotating block can only rotate along a low point to a high point direction, and the inner side of the front side plate of the conveying trough 21 is provided with a terminal matching groove 22 matched with the penetrating part of the terminal 12 and an inserting piece matching groove matched with the inserting piece.

The conveying device 2 is specifically operated as follows, when the main body 11 is placed into the conveying groove 21, the conveying feeding block 23 is driven to feed through the conveying feeding cylinder 26, the conveying propelling rotating block 25 is driven to drive the main body 11 to feed, then the conveying feeding block 23 is returned to the original position, in the process of returning to the original position, the conveying propelling rotating block 25 contacts the main body 11 and rotates under the action of the main body 11, and can pass through the lower part of the main body 11 to complete one feeding operation, the position movement of the main body 11 in the resetting process does not influence the integral feeding precision, the feeding precision is determined by the feeding of the conveying feeding block 23, the feeding amplitude of the conveying propelling rotating block 25 after each feeding can be determined, the feeding position precision of the main body 11 before each feeding is completed and resetting can be ensured, and the reciprocating feeding can be realized only through one power component, saving equipment cost and energy consumption.

As shown in fig. 6-8, the frame 1 is further provided with a positioning device 4 whose position matches with the terminal insertion device 5, the cover insertion device 6 and the insert insertion device 7, the positioning device 4 comprises a clamping cylinder 31 disposed on the frame 1 and moving forward and backward, the clamping cylinder 31 is connected with a clamping movable block 32 capable of penetrating into the conveying trough 21, the clamping movable block 32 is provided with a clamping trough 34 matched with the main body 11, the side wall of the clamping trough 34 is provided with a clamping propping movable trough 35 communicated with the clamping trough 34, the clamping propping movable trough 35 is provided with a clamping propping spring 36, the clamping propping spring 36 is connected with a clamping propping movable block 37, the clamping propping movable block 37 is connected with a clamping propping block 33, the clamping propping block 33 is located in the clamping trough 34, and the clamping propping spring 36 has no external force, the blocking and tightening block 33 exceeds the blocking and moving block 32.

The clamping device is specifically operated as follows, when a terminal insertion station or a sealing cover insertion station is sent into the main body 11, the clamping cylinder 31 drives the clamping movable block 32 to feed into the conveying groove 21, the clamping jacking block 33 can firstly contact the main body 11, and in the process of subsequently continuing clamping, the clamping jacking block 33 can enable the main body 11 to cling to the rear side plate of the conveying groove 21, along with the continuation of clamping feeding, the clamping groove 34 can clamp the action side surface of the main body 11, so that accurate positioning of the main body 11 can be realized, the left side plate and the right side plate of the main body 11 are limited while the main body 11 is guaranteed to cling to the rear side plate of the conveying groove 21, and the positioning can be realized only through a driving part which is fed linearly, the equipment cost is reduced, and possible interference situation is avoided.

As shown in fig. 5, the main feeding device 3 includes a main feeding conveying trough 27 disposed on the frame 1, the main feeding conveying trough 27 is fitted with a main transfer seat 29, and the main transfer seat 29 is abutted with the starting end of the conveying trough 21 by being pushed by a main transfer cylinder 28.

The main body 11 is conveyed through the main body feeding conveying groove 27 and is received by the main body transfer seat 29, and then the main body transfer cylinder 28 drives the main body transfer pusher 29 to be in butt joint with the conveying groove 21, and then the main body 11 is pushed into the conveying groove 21 through the conveying pushing rotating block 25, so that the main body feeding operation is completed.

When the intelligent control device is used specifically, a control system can be equipped for controlling the cooperative work of all the power parts, and the integral operation can be realized through the control buttons of all the power parts.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principle and embodiments of the present invention have been described herein by way of specific examples, which are provided only to help understand the method and the core idea of the present invention, and the above is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the above technical features can also be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims (9)

1. The assembling mechanism of the optical fiber connector is characterized by comprising a rack (1), wherein the rack (1) is provided with a conveying device (3) matched with a main body (11), the starting end of the conveying device (3) is matched with the main body feeding device (3), the assembling mechanism is characterized in that the rear side of the conveying device (3) is sequentially provided with two matching ports used for assembling a terminal and a sealing cover and an inserting sheet port used for inserting an inserting sheet along the conveying direction, the two matching ports are respectively matched with a terminal inserting device (5) and a sealing cover inserting device (6), the inserting sheet port is matched with an inserting sheet inserting device (7), the inserting sheet inserting device (7) comprises an inserting sheet inserting movable cylinder (71) which is arranged on the rack (1) and is consistent with the moving direction of the conveying device (3), the inserting sheet inserting movable cylinder (71) is connected with an inserting sheet inserting movable seat (72), the inserting sheet inserting device is characterized in that an inserting sheet inserting cylinder (73) is arranged on the inserting sheet inserting movable seat (72), the inserting sheet inserting cylinder (73) is connected with an inserting sheet inserting push block (74), an inserting sheet clamping device (75) matched with an inserting sheet conveying groove (77) on the rack (1) is arranged on the inserting sheet inserting push block (74), the inserting sheet clamping device (75) comprises an inserting sheet lower clamping block (78) fixed on the inserting sheet inserting push block (74), a clamping material blocking block (79) is arranged on the side face of the inserting sheet lower clamping block (78), a square notch is formed in the end portion of the inserting sheet lower clamping block (78), the end portion of the clamping material blocking block (79) does not exceed the inserting sheet lower clamping block (78), the inserting sheet inserting push block (74) is arranged on a clamping cylinder (81) with a vertical trend, the clamping cylinder (81) is connected with an upper clamping block (80), the lower side of the end part of the upper clamping block (80) is provided with a vertical clamping block with the height identical to that of a square notch on the lower clamping block (78) of the inserting piece, and the sum of the thickness of the vertical clamping block and the thickness of the inserting piece (14) is identical to the width of the direction notch.

2. The assembly mechanism of an optical fiber splice according to claim 1, wherein said insert insertion movable seat (72) is further provided with two insert insertion limiting blocks (76) engaged with the insert insertion pushing block (74).

3. The assembly mechanism of an optical fiber splice according to claim 1, wherein the terminal insertion device (5) includes a terminal insertion slot (41) which is in a front-back direction and is butted against the mating port, a terminal conveying slot (44) is fitted to a side surface of the terminal insertion slot (41), the terminal conveying slot (44) is a slot body which is matched with the terminal structure and enables the terminal to be conveyed horizontally, a terminal insertion cylinder (42) is provided at a rear end of the terminal insertion slot (41), the terminal insertion cylinder (42) is connected with a terminal insertion pushing assembly (43), the terminal insertion pushing assembly (43) includes a terminal insertion movable block (53), the terminal insertion movable block (53) is connected with a terminal insertion pushing rod (54) which is in accordance with the height of the terminal block, the terminal insertion movable block (53) is further connected with a terminal insertion pressing block (56) through a terminal insertion spring (55), the lower surface of the terminal insertion pressing block (56) is tangent to the terminal insertion pushing rod (54), and when the terminal insertion spring (55) is in the original length, the terminal insertion pressing block (56) exceeds the terminal insertion pushing rod (54).

4. The assembly mechanism of an optical fiber splice according to claim 3, wherein the terminal feeding groove (44) is fitted with a terminal shaping device (45), the terminal shaping device (45) includes a terminal shaping cylinder (57) disposed below the terminal feeding groove (44) and perpendicular to the terminal feeding groove (44), the terminal shaping cylinder (57) is connected with a terminal shaping movable block (58), the terminal shaping movable block (58) is connected with a terminal shaping block (60) insertable into the terminal feeding groove (44) through a terminal shaping link (59), the terminal shaping block (60) is provided with terminal shaping grooves (61), the number and position of the terminal shaping grooves (61) are consistent with the number and position of pins on a terminal, and when the terminal shaping block (60) is inserted into the deepest position of the terminal feeding groove (44), the terminal shaping groove (61) and the pin of the terminal still have clearance.

5. The assembly mechanism of an optical fiber splice according to claim 3, characterized in that the terminal insertion slot (41) is provided with a terminal detection port (46) at a side of a portion close to the terminal conveying slot (44), the terminal detection port (46) is matched with a terminal detection insert block (48), the terminal detection insert block (48) is connected with a terminal detection push-in cylinder (47), one side of the terminal detection insert block (48) close to the terminal insertion cylinder (42) is provided with a terminal detection contact sensing screen (49), a waste outlet (50) is arranged at a position opposite to the terminal detection port (46) of the terminal insertion slot (41), the waste outlet (50) is a stepped port matched with the shape of the terminal (12), and the waste outlet (50) is connected with a waste collection box (51).

6. The assembly mechanism of the optical fiber connector according to claim 1, wherein the cap insertion device (6) comprises a cap insertion slot (62) which is butted with the matching port and moves forward and backward, a cap conveying slot (65) is communicated with the side surface of the cap insertion slot (62), a cap insertion cylinder (63) is arranged at the rear end of the cap insertion slot (62), and the cap insertion cylinder (63) is connected with a cap insertion push block (64).

7. The assembly mechanism of the optical fiber connector according to claim 1, wherein the conveying device (2) comprises a conveying groove (21) arranged on the rack (1), a conveying feeding block (23) flush with the conveying groove (21) is arranged at the lower part of the conveying groove (21), the conveying feeding block (23) is connected with a conveying feeding cylinder (26), a conveying snap spring (24) is uniformly arranged on the conveying feeding block (23), the conveying snap spring (24) is connected with a conveying propelling rotating block (25), the upper part of the conveying propelling rotating block (25) is an inclined plane, one side close to a conveying end is a high side, when no external force is applied, the conveying propelling rotating block (25) is in a vertical state and can only rotate towards the high point along the low point, a terminal matching groove (22) matched with a penetrating part of the terminal (12) and a matching inserting sheet matched with the terminal (12) are formed in the inner side of a front side plate of the conveying groove (21) A groove.

8. The assembly mechanism of an optical fiber splice according to claim 7, wherein said frame (1) is further provided with a positioning device (4) having a position matching with said terminal insertion device (5), said cover insertion device (6) and said insert insertion device (7), said positioning device (4) comprises a positioning cylinder (31) disposed on said frame (1) and moving forward and backward, said positioning cylinder (31) is connected with a positioning movable block (32) capable of penetrating into said conveying trough (21), said positioning movable block (32) is provided with a clamping trough (34) engaged with said main body (11), and a side wall of said clamping trough (34) is provided with a clamping abutting movable trough (35) communicated with said clamping trough (34), said clamping abutting movable trough (35) is provided with a clamping abutting spring (36), said clamping abutting spring (36) is connected with a clamping abutting movable block (37), screens top tight movable block (37) be connected with screens top tight block (33), screens top tight block (33) be located card silo (34), and screens top tight spring (36) do not have exogenic action time, screens top tight block (33) surpass screens movable block (32).

9. The assembly mechanism of the optical fiber splice according to claim 7, wherein the main body feeding device (3) comprises a main body feeding conveying groove (27) arranged on the frame (1), the main body feeding conveying groove (27) is matched with a main body transfer seat (29), and the main body transfer seat (29) is butted with the starting end of the conveying groove (21) by the pushing of a main body transfer cylinder (28).

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