CN113942872B - Wave moves arrangement mechanism of optic fibre - Google Patents

Abstract

The invention relates to a wave-shift optical fiber discharging mechanism, which comprises a rack, wherein a material carrying plate is arranged on the rack, a bending carrier is placed on the material carrying plate through a carrier clamping seat, a guiding device, a cutting device and a wire pulling device which are matched with each other are arranged on the rack, a wire clamping device for clamping an optical fiber pulled out by the wire pulling device is also arranged on the rack, and a wire releasing device for clamping two ends of the cut optical fiber clamped by the wire clamping device and vertically descending the optical fiber to the bending carrier is also arranged on the rack; the invention aims to provide a wave-shift optical fiber arranging mechanism, which adopts a wire pulling device to pull optical fibers, and places the cut optical fibers on a bending carrier through a wire clamping device and a wire releasing device, so that the integrated operation of cutting and releasing can be realized, the condition that the optical fibers are damaged by artificial misoperation is avoided, and the arrangement efficiency of the optical fibers is also improved.

Description

Wave moves arrangement mechanism of optic fibre

Technical Field

The invention relates to the field of application equipment of a spallation neutron source detector, in particular to an arrangement mechanism of a wave-shift optical fiber.

Background

The China spallation neutron source detector comprises a scintillator detector, the existing scintillator detector needs to use a wave-shift optical fiber for detector signal transmission, the wave-shift optical fiber is very expensive, most of the existing scintillator detectors are imported at present, the price is about $ 17/meter, the wave-shift optical fiber is fragile in structure, and is very easy to bend and damage, so that light leakage occurs to influence signal transmission; in the research and development process of the detector, the bending of the wave-moving optical fiber is required to be realized, in order to realize the bending of the optical fiber, a bending carrier is designed, the bending carrier comprises three sections of plates, the outer plates can rotate around an intermediate plate, wire grooves for placing the wave-moving optical fiber are formed in the three sections of plates, the optical fiber needs to be placed in the wire grooves, then lock blocks are pressed at the outer ends of the two outer plates, then the locking blocks are locked through bolts, the wave-moving optical fiber is further discharged, the bending of the wave-moving optical fiber is realized through the bending carrier (generally, water bath bending is adopted), most of the existing wave-moving optical fibers are cut off after the length is increased through manual labor, then the cut-off wave-moving optical fiber is placed in the wire grooves, the whole process is manual operation, the manual cutting, the carrying and discharging processes are easy, and the condition that human errors cause the optical fiber to be bent and further damage the optical fiber appears.

Disclosure of Invention

The invention aims to provide a wave-shift optical fiber arranging mechanism, which adopts a wire pulling device to pull optical fibers, and places the cut optical fibers on a bending carrier through a wire clamping device and a wire releasing device, so that the integrated operation of cutting and releasing can be realized, the condition that the optical fibers are damaged by artificial misoperation is avoided, and the arrangement efficiency of the optical fibers is also improved.

In order to achieve the above purpose, the invention adopts the technical scheme that: the rack is provided with a material carrying plate, a bending carrier is placed on the material carrying plate through a carrier clamping seat, the rack is provided with a guiding device, a cutting device and a wire pulling device which are matched with each other, the rack is also provided with a wire clamping device for clamping the optical fiber pulled out by the wire pulling device, and the rack is also provided with a pay-off device for clamping the optical fiber clamped by the wire clamping device at two ends and enabling the optical fiber to vertically descend and be placed on the bending carrier.

Preferably, the wire drawing device comprises a wire drawing seat arranged on the frame, a wire drawing movable device is arranged on the wire drawing seat, a wire drawing holder is arranged on the wire drawing movable device, the wire drawing holder comprises a wire drawing movable seat connected to the wire drawing movable device, the wire drawing movable seat is connected with a wire drawing lifting seat through a wire drawing lifting cylinder, a wire drawing clamping cylinder is arranged below the wire drawing lifting seat, the wire drawing clamping cylinder is connected with two wire drawing clamping blocks, and a wire drawing clamping elastic block is arranged on the inner side of each wire drawing clamping block.

Preferably, trapping mechanism including set up on the seat of acting as go-between and with the trapping mechanism movable device that acts as go-between parallel trend, trapping mechanism be connected with the trapping movable seat, the trapping movable seat on be provided with trapping elevating gear, trapping elevating gear be connected with trapping lift seat, trapping lift seat on be provided with two trapping interval adjustment cylinders that set up dorsad, trapping interval adjustment cylinder be connected with the trapping mounting panel, trapping mounting panel below be provided with the trapping mechanism.

Preferably, the wire clamping device comprises wire clamping cylinders arranged below the wire clamping mounting plate, the number of the wire clamping cylinders is consistent with the number of wire grooves in the bending carrier, the wire clamping cylinders are distributed in a V shape, each wire clamping cylinder is connected with a wire clamping group consisting of two wire clamping blocks, and the distance between adjacent clamped optical fibers is consistent with the distance between adjacent wire grooves.

Preferably, the pay-off device comprises a pay-off mounting seat arranged below the table plate of the frame, a pay-off lifting structure is arranged on the pay-off mounting seat, the pay-off lifting structure is connected with a pay-off lifting block, pay-off clamping movable cylinders are arranged at two ends of the pay-off lifting block, the pay-off clamping movable cylinders are connected with a pay-off clamping movable seat, a pay-off clamping cylinder capable of penetrating through the table plate of the frame is arranged on the pay-off clamping movable seat, the pay-off clamping cylinder is connected with two pay-off clamping blocks, and pay-off clamping elastic blocks are arranged on the inner side of each pay-off clamping block.

Preferably, the cutting device comprises a cutting installation block arranged on the rack, a notch which avoids interference with the pay-off clamping cylinder is formed in the cutting installation block, a lower cutter lifting cylinder and an upper cutter lifting cylinder are arranged on the cutting installation block, the lower cutter lifting cylinder and the upper cutter lifting cylinder are respectively arranged on two sides of the notch, the lower cutter lifting cylinder is connected with a lower cutter lifting seat, a lower cutter is arranged on the lower cutter lifting seat, the upper cutter lifting cylinder is connected with an upper cutter lifting seat, an upper cutter is arranged on the upper cutter lifting seat, and the upper cutter and the lower cutter are matched to cut off the optical fiber.

Preferably, the rack is further provided with a cutting and clamping device, the cutting and clamping device is located between the guiding device and the cutting device, the cutting and clamping device comprises a cutting support block and a cutting wire holder, the cutting support block and the cutting wire holder are arranged on the rack and used for supporting the optical fibers, and the number of the cutting wire holders is consistent with that of wire grooves in the bending carrier and distributed in a V shape.

Preferably, carry the flitch on still be provided with the briquetting and get and put device and briquetting and place the seat, the briquetting get put the device including setting up the first briquetting on carrying the flitch get put movable cylinder, first briquetting get to put movable cylinder and be connected with rather than the vertically second briquetting and get and put movable cylinder, the second briquetting get to put movable cylinder and be connected with the briquetting and get and put the sliding seat, the briquetting get to be provided with the briquetting on getting the sliding seat and get and put lift cylinder, the pressure material get to put lift cylinder and be connected with the briquetting and get and put the lift seat, the briquetting get to be provided with the briquetting on putting the lift seat and get and put the mounting panel, the briquetting get to be provided with the briquetting on putting the mounting panel and get and put the centre gripping cylinder, the briquetting get to put centre gripping cylinder and be connected with two briquetting and get and put the grip block.

Preferably, the base is placed for cup jointing the cooperation with the briquetting to the briquetting, and offers on the lateral wall of cup joint mouthful and get and put the mouth, one of them lateral wall is offered one and is got and put the mouth, and another is offered two and is got and put the mouth, and three is got and is put mouthful triangular distribution, gets one of seting up on getting grip block and the lateral wall and gets and put a mouthful cooperation, another gets two of seting up on getting grip block and the lateral wall and gets and put a mouthful cooperation.

Drawings

Fig. 1 is a perspective view of an arrangement mechanism of a wave-shifting optical fiber.

Fig. 2 is a perspective view of the pay-off device and the bending carrier.

Fig. 3 is a perspective view of the thread pulling device and the thread clamping device.

Fig. 4 is a perspective view of the wire holder.

Fig. 5 is a perspective view of the wire gripper.

Fig. 6 is a perspective view of the cutting device and the cutting and clamping device.

Fig. 7 is a schematic perspective view of the briquetting picking and placing device.

The text labels shown in the figures are represented as: 1. a frame; 2. a material carrying plate; 3. bending a carrier; 4. a guide device; 5. cutting off the clamping device; 6. a cutting device; 7. a wire pulling device; 8. a wire clamping device; 9. a pay-off device; 10. a pressing block taking and placing device; 21. a carrier card seat; 22. paying off the mounting seat; 23. a paying-off lifting structure; 24. paying off the lifting block; 25. paying off and clamping the movable cylinder; 26. paying off and clamping the movable seat; 27. paying off a clamping cylinder; 28. paying off the clamping block; 29. paying off and clamping the elastic block; 31. a wire pulling seat; 32. a wire pulling movable device; 33. a wire holder; 34. a pull wire movable seat; 35. a stay wire lifting seat; 36. a stay wire clamping cylinder; 37. a wire pulling clamping block; 38. the elastic block is clamped by the pull wire; 41. a movable device for clamping the wire; 42. a wire clamping movable seat; 43. a wire clamping lifting device; 44. a wire clamping lifting seat; 45. a wire clamping interval adjusting cylinder; 46. a wire clamping mounting plate; 47. a wire clamping device; 48. a wire clamping cylinder; 49. a wire clamping block; 51. cutting off the mounting block; 52. a lower cutter lifting cylinder; 53. a lower cutter lifting seat; 54. a lower cutter; 55. an upper cutter lifting cylinder; 56. an upper cutter lifting seat; 57. an upper cutter; 58. cutting off the supporting block; 59. cutting off the wire holder; 61. a pressing block placing seat; 62. the first pressing block picking and placing movable cylinder; 63. the second pressing block picking and placing movable cylinder; 64. the pressing block taking and placing movable seat; 65. a pressing block taking and placing lifting cylinder; 66. a pressing block taking and placing lifting seat; 67. a pressing block taking and placing mounting plate; 68. a pressing block picking and placing clamping cylinder; 69. the pressing block is used for taking and placing the clamping block.

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. 1-2, the structure of the present invention is: the utility model provides a discharging mechanism of ripples optical fiber, includes frame 1, frame 1 on be provided with and carry flitch 2, carrier 2 place bending carrier 3 through carrier cassette 21, frame 1 on be provided with guiding device 4, cutting device 6 and the draw off mechanism 7 of mutually supporting, frame 1 on still be provided with the trapping mechanism 8 that carries out the centre gripping to the optic fibre that draw off of draw off mechanism 7, still be provided with on the frame 1 and carry out both ends centre gripping and make the vertical pay-off 9 that places bending carrier 3 of descending of optic fibre to the optic fibre after cutting off of trapping mechanism 8 centre gripping.

The operation is as follows, the optical fiber trays are used together with the optical fiber tray rack, corresponding optical fiber trays are placed according to the number of slots, then the optical fiber heads of the optical fiber trays pass through the guide device 4, then the optical fibers are clamped through the wire pulling device 7 and then pulled, after the optical fibers are pulled to a required amplitude, the pulled optical fibers are clamped through the wire clamping device 8, then the optical fibers are cut through the cutting device 6, further the optical fibers with specific lengths are clamped on the wire clamping device 8, then the optical fibers are driven to move to the upper side of the bending carrier 3 through the wire clamping device 8, then the two ends of the optical fibers clamped by the wire clamping device 8 are clamped through the pay-off device 9, the optical fibers are driven to descend through the pay-off device 9, the optical fibers are placed in the slots of the bending carrier 3, the continuous automatic cutting and arranging and placing operation of the waveshifting optical fibers are completed, compared with manual operation, the efficiency is improved, the economic influence caused by the fault and damage of the optical fibers caused by manual operation can be avoided, the matching design of the wire clamping device and the pay-off device is mainly adopted, and the design of secondary clamping, and the nondestructive arrangement of the optical fibers can be ensured to be placed in the slots.

As shown in fig. 3-4, the wire pulling device 7 includes a wire pulling seat 31 disposed on the frame 1, a wire pulling movable device 32 is disposed on the wire pulling seat 31, a wire pulling holder 33 is disposed on the wire pulling movable device 32, the wire pulling holder 33 includes a wire pulling movable seat 34 connected to the wire pulling movable device 32, the wire pulling movable seat 34 is connected to a wire pulling lifting seat 35 through a wire pulling lifting cylinder, a wire pulling clamping cylinder 36 is disposed below the wire pulling lifting seat 35, the wire pulling clamping cylinder 36 is connected to two wire pulling clamping blocks 37, and a wire pulling clamping elastic block 38 is disposed on an inner side of each wire pulling clamping block 37.

The specific operation of the wire drawing device 7 is as follows: drive through the head of the cable running gear 32 earlier and act as go-between holder 33 and remove to the position with fiber end complex, and the lift seat 35 of acting as go-between this moment also can go up and down with fiber fit's height, and then can make the fiber head be in between two grip blocks 37 of acting as go-between, then drive two grip blocks 37 of acting as go-between through the grip cylinder 36 of acting as go-between and close and carry out the centre gripping to the fiber head, through the design of the grip elastic block 38 of acting as go-between, can ensure good clamping effect, can not damage optic fibre simultaneously again, also can ensure simultaneously that the condition of optic fibre position change can not appear in the in-process of pulling.

As shown in fig. 3 and 5, the wire clamping device 8 includes a wire clamping movable device 41 disposed on the wire pulling seat 31 and parallel to the wire pulling movable device 32, the wire clamping movable device 41 is connected with a wire clamping movable seat 42, a wire clamping lifting device 43 is disposed on the wire clamping movable seat 42, the wire clamping lifting device 43 is connected with a wire clamping lifting seat 44, two wire clamping interval adjusting cylinders 45 disposed oppositely are disposed on the wire clamping lifting seat 44, the wire clamping interval adjusting cylinders 45 are connected with a wire clamping mounting plate 46, a wire clamping unit 47 is disposed below the wire clamping mounting plate 46, the wire clamping unit 47 includes wire clamping cylinders 48 disposed below the wire clamping mounting plate 46, the number of the wire clamping cylinders 48 is consistent with the number of wire slots on the bending carrier 3, the wire clamping cylinders 48 are distributed in a V shape, each wire clamping cylinder 48 is connected with a wire clamping group composed of two wire clamping blocks 49, and the distance between adjacent clamped optical fibers is consistent with the distance between adjacent wire slots.

After the optical fiber is pulled out by a required distance, the position of the wire clamping movable seat 42 is adjusted through the wire clamping movable device 41, then the wire clamping lifting seat 44 is driven to descend through the wire clamping lifting cylinder 43, each wire clamping group is matched with one optical fiber, then the distance between good wire clamps 47 is adjusted through the wire clamping distance adjusting cylinder 45 according to the length specification of the optical fiber, then each wire clamping cylinder 48 drives the wire clamping group consisting of two wire clamping blocks 49 to be closed to clamp a single optical fiber, the wire clamping cylinders are distributed in a V shape, the interference between the two wire clamping cylinders can be avoided, meanwhile, the clamping space can be saved, the mutual distance between the optical fibers clamped by the wire clamping devices can be matched with a wire groove on a bending carrier, the optical fibers can be accurately placed in the wire groove after being transferred to the wire releasing device, and the situation that the optical fiber is inclined when a cutter acts in the cutting process can also be avoided through the structural design of the wire clamping devices.

As shown in fig. 2, the paying-off device 9 includes a paying-off mounting seat 22 disposed below the platen of the frame 1, a paying-off lifting structure 23 is disposed on the paying-off mounting seat 22, the paying-off lifting structure 23 is connected with a paying-off lifting block 24, paying-off clamping movable cylinders 25 are disposed at two ends of the paying-off lifting block 24, the paying-off clamping movable cylinders 25 are connected with a paying-off clamping movable seat 26, a paying-off clamping cylinder 27 capable of penetrating through the platen of the frame 1 is disposed on the paying-off clamping movable seat 26, the paying-off clamping cylinder 27 is connected with two paying-off clamping blocks 28, and a paying-off clamping elastic block 29 is disposed on the inner side of each paying-off clamping block 28.

The specific operation of the pay-off device is as follows: firstly, the pay-off lifting block 24 is driven to lift through the pay-off lifting structure 23, so that the pay-off clamping block 28 penetrates out of a bedplate of the rack 1 and is matched with an optical fiber clamped by the wire clamping device 8 in height, then the pay-off clamping movable seat 26 is driven to move through the room clamping movable cylinder 25, so that the pay-off clamping block 28 is matched with the end position of the optical fiber, then the pay-off clamping block 28 is driven to be closed through the pay-off clamping cylinder 27, so that the end of the optical fiber can be clamped by the pay-off clamping elastic block 29, then the wire clamping device is loosened, so that the optical fiber clamped by the pay-off clamping elastic block 29 can vertically fall down through the pay-off lifting structure 23, so that the optical fiber is clamped into a wire slot in a one-to-one correspondence manner, then the pay-off clamping cylinder 27, the pay-off lifting structure 23 and the pay-off clamping movable cylinder 25 are restored to the original positions, and then one-off accurate pay-off operation is completed.

As shown in fig. 6, the cutting device 6 includes a cutting mounting block 51 disposed on the frame 1, the cutting mounting block 51 is provided with a notch for avoiding interference with the pay-off clamping cylinder 27, the cutting mounting block 51 is provided with a lower cutter lifting cylinder 52 and an upper cutter lifting cylinder 55, the lower cutter lifting cylinder 52 and the upper cutter lifting cylinder 55 are respectively disposed at two sides of the notch, the lower cutter lifting cylinder 52 is connected with a lower cutter lifting seat 53, the lower cutter lifting seat 53 is provided with a lower cutter 54, the upper cutter lifting cylinder 55 is connected with an upper cutter lifting seat 56, the upper cutter lifting seat 56 is provided with an upper cutter 57, and the upper cutter 57 and the lower cutter 54 are matched to cut the optical fiber.

The specific operation of the cutting device 6 is as follows: after the bracing wire is finished and the clamping wire is clamped, the cutting operation is carried out, specifically, the lower cutter lifting cylinder 52 and the upper cutter lifting cylinder 55 respectively drive the lower cutter 54 and the upper cutter 57 to move oppositely, so that the cutting edges of the two cutters are matched to cut off the optical fiber, the structure that the upper cutter and the lower cutter are movable is adopted, the interference between the cutters and the bracing wire structure can be avoided, the notch for avoiding the interference is arranged, the upper lifting cylinder and the lower lifting cylinder are arranged on two sides of the notch, and the interference between the cutting device and the pay-off device can be completely avoided.

As shown in fig. 6, the frame 1 is further provided with a cutting and clamping device 5, the cutting and clamping device 5 is located between the guiding device 4 and the cutting device 6, the cutting and clamping device 5 includes a cutting and supporting block 58 and a cutting and clamping device 59 which are arranged on the frame 1 and used for supporting the optical fiber, and the number of the cutting and clamping devices 59 is consistent with that of the wire slots on the bending carrier 3 and is distributed in a V shape.

The structural design of the cutting and clamping device 5 can support the optical fiber part to be cut through the cutting support block 58, and can clamp and position each optical fiber through the cutting and clamping devices 59 distributed in a V shape, so that the optical fiber position change (mainly inclination) caused in the cutting process can be further avoided, and the accurate pulling initial positions and the accurate intervals among the subsequent optical fibers are further ensured.

As shown in fig. 7, the material carrying plate 2 is further provided with a pressing block taking and placing device 10 and a pressing block placing seat 61, the pressing block taking and placing device 10 comprises a first pressing block taking and placing movable cylinder 62 arranged on the material carrying plate 2, the first pressing block taking and placing movable cylinder 62 is connected with a second pressing block taking and placing movable cylinder 63 perpendicular to the first pressing block taking and placing movable cylinder 62, the second pressing block taking and placing movable cylinder 63 is connected with a pressing block taking and placing movable seat 64, a pressing block taking and placing lifting cylinder 65 is arranged on the pressing block taking and placing movable seat 64, the pressing block taking and placing lifting cylinder 65 is connected with a pressing block taking and placing lifting seat 66, a pressing block taking and placing mounting plate 67 is arranged on the pressing block taking and placing lifting seat 66, a pressing block taking and placing clamping cylinder 68 is arranged on the pressing block taking and placing mounting plate 67, the pressing block taking and placing clamping cylinder 68 is connected with two pressing block taking and placing clamping blocks 69, the pressing block placing seat 61 is in sleeve fit with the pressing block taking and placing, a taking and placing opening is arranged on the side wall of the sleeve joint, one side wall is provided with two taking and placing openings, and placing openings are arranged on the other side wall, and three taking and placing openings are distributed in a triangular shape, one taking and placing clamping block 69 is matched with the other clamping block taking and placing side wall, and the other clamping opening of the other clamping block taking and placing opening.

When carrier 3 of bending is placed, the briquetting is also placed on briquetting place seat 61, the structural design of briquetting place seat 61, can enough cup joint the cooperation with the briquetting and realize the accurate location of briquetting, simultaneously can be again through the design of triangle-shaped getting and putting the mouth, can make things convenient for the perpendicular blowing of briquetting, after the blowing of accomplishing optic fibre, get through first briquetting and put movable cylinder 62 and second briquetting and get movable cylinder 63 synergism, make two briquetting get and put grip block 69 and remove the briquetting and place seat 61 directly over, later rethread briquetting get and put lift cylinder and drive briquetting and get and put grip block 69 and descend, make the briquetting get and put the height and match with the briquetting of grip block 69, later drive two through briquetting grip cylinder 69 and get and put grip block 69 and remove the relative movement of grip block 69, and then make two get and put grip block 69 and carry out the centre gripping to the briquetting from getting and putting the mouth, adopt triangle-shaped's three point centre gripping, can ensure the steady of centre gripping, later transfer the briquetting of centre gripping to the corresponding position of bending carrier again, later make briquetting get and put the device and restore the normal position, then through artifical briquetting take out and accomplish the briquetting and bend after bolt locking and move the optic fibre and move the operation wave and arrange.

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 principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing 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 may be made without departing from the principle of the present invention, and the technical features described above may 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 (8)

1. A discharging mechanism for a wave-shifting optical fiber comprises a rack (1), and is characterized in that a material carrying plate (2) is arranged on the rack (1), a bending carrier (3) is placed on the material carrying plate (2) through a carrier clamping seat (21), a guiding device (4), a cutting device (6) and a wire drawing device (7) which are matched with each other are arranged on the rack (1), the rack (1) is further provided with a wire clamping device (8) for clamping the optical fiber drawn out by the wire drawing device (7), the rack (1) is further provided with a wire releasing device (9) for clamping the cut optical fiber clamped by the wire clamping device (8) at two ends and vertically descending and placing the optical fiber on the bending carrier (3), the material carrying plate (2) is further provided with a pressing block taking and placing device (10) and a pressing block placing seat (61), the pressing block taking and placing device (10) comprises a first pressing block taking and placing cylinder (62) arranged on the material carrying plate (2), the first pressing block taking and placing cylinder (62) is connected with a pressing block taking and placing cylinder (63) which is perpendicular to the movable pressing block taking and placing cylinder (64), the movable pressing block taking and lifting cylinder (64) is connected with a pressing block lifting cylinder (64), the briquetting get and put and be provided with briquetting on lift seat (66) and get and put mounting panel (67), briquetting get and be provided with briquetting on putting mounting panel (67) and get and put centre gripping cylinder (68), briquetting get and put centre gripping cylinder (68) and be connected with two briquetting and get and put grip block (69).

2. The mechanism of claim 1, wherein the pulling device (7) comprises a pulling base (31) disposed on the frame (1), the pulling base (31) is provided with a pulling movable device (32), the pulling movable device (32) is provided with a pulling holder (33), the pulling holder (33) comprises a pulling movable base (34) connected to the pulling movable device (32), the pulling movable base (34) is connected to a pulling lifting base (35) through a pulling lifting cylinder, a pulling clamping cylinder (36) is disposed below the pulling lifting base (35), the pulling clamping cylinder (36) is connected to two pulling clamping blocks (37), and a pulling clamping elastic block (38) is disposed on the inner side of each pulling clamping block (37).

3. The wave-shift optical fiber discharging mechanism according to claim 2, wherein the wire clamping device (8) comprises a wire clamping movable device (41) which is arranged on the wire pulling seat (31) and runs parallel to the wire pulling movable device (32), the wire clamping movable device (41) is connected with a wire clamping movable seat (42), a wire clamping lifting device (43) is arranged on the wire clamping movable seat (42), the wire clamping lifting device (43) is connected with a wire clamping lifting seat (44), two wire clamping interval adjusting cylinders (45) which are arranged in a back direction are arranged on the wire clamping lifting seat (44), the wire clamping interval adjusting cylinders (45) are connected with a wire clamping mounting plate (46), and a wire clamp (47) is arranged below the wire clamping mounting plate (46).

4. The wave-shift optical fiber arranging mechanism according to claim 3, wherein the wire clamping device (47) comprises wire clamping cylinders (48) arranged below the wire clamping mounting plate (46), the number of the wire clamping cylinders (48) is the same as that of the wire grooves on the bending carrier (3), the wire clamping cylinders (48) are distributed in a V shape, each wire clamping cylinder (48) is connected with a wire clamping group consisting of two wire clamping blocks (49), and the distance between adjacent clamped optical fibers is the same as that between adjacent wire grooves.

5. The mechanism for discharging the wave-shifted optical fibers according to claim 4, wherein the pay-off device (9) comprises a pay-off mounting seat (22) arranged below the platen of the rack (1), a pay-off lifting structure (23) is arranged on the pay-off mounting seat (22), the pay-off lifting structure (23) is connected with a pay-off lifting block (24), pay-off clamping movable cylinders (25) are arranged at two ends of the pay-off lifting block (24), the pay-off clamping movable cylinders (25) are connected with pay-off clamping movable seats (26), pay-off clamping cylinders (27) capable of penetrating through the platen of the rack (1) are arranged on the pay-off clamping movable seats (26), the pay-off clamping cylinders (27) are connected with two pay-off clamping blocks (28), and pay-off clamping elastic blocks (29) are arranged on the inner sides of the pay-off clamping blocks (28).

6. The discharging mechanism of the wave-shift optical fiber according to claim 5, wherein the cutting device (6) comprises a cutting mounting block (51) arranged on the frame (1), the cutting mounting block (51) is provided with a notch for avoiding interference with the pay-off clamping cylinder (27), the cutting mounting block (51) is provided with a lower cutter lifting cylinder (52) and an upper cutter lifting cylinder (55), the lower cutter lifting cylinder (52) and the upper cutter lifting cylinder (55) are respectively arranged on two sides of the notch, the lower cutter lifting cylinder (52) is connected with a lower cutter lifting seat (53), the lower cutter lifting seat (53) is provided with a lower cutter (54), the upper cutter lifting cylinder (55) is connected with an upper cutter lifting seat (56), the upper cutter lifting seat (56) is provided with an upper cutter (57), and the upper cutter (57) and the lower cutter (54) are matched to cut the optical fiber.

7. The mechanism of claim 6, wherein the rack (1) is further provided with a cutting and holding device (5), the cutting and holding device (5) is located between the guiding device (4) and the cutting device (6), the cutting and holding device (5) comprises a cutting support block (58) and a cutting and wire clamping device (59) which are arranged on the rack (1) and used for supporting the optical fiber, and the number of the cutting and wire clamping devices (59) is consistent with that of the wire grooves on the bending carrier (3) and is distributed in a V shape.

8. The mechanism of claim 1, wherein the holder (61) is in sleeve fit with the press block, and the side walls of the sleeve are provided with an access opening, one of the side walls is provided with an access opening, the other is provided with two access openings, and the three access openings are distributed in a triangular shape, one access clamping block (69) is fitted with one access opening provided on the side wall, and the other access clamping block (69) is fitted with two access openings provided on the side wall.

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