CN117585523A

CN117585523A - Optical fiber cable winding correcting device

Info

Publication number: CN117585523A
Application number: CN202410060335.6A
Authority: CN
Inventors: 王玉芹; 龚云凤; 韩永志; 李朋; 袁福; 王苏北; 何江浩; 王新志; 高秀红
Original assignee: Jiangsu Huamai New Materials Co ltd
Current assignee: Jiangsu Huamai New Materials Co ltd
Priority date: 2024-01-16
Filing date: 2024-01-16
Publication date: 2024-02-23
Anticipated expiration: 2044-01-16
Also published as: CN117585523B

Abstract

The invention discloses an optical fiber cable winding correction device, which belongs to the technical field of optical fiber cable winding equipment and comprises a rope winding mechanism, a wire outlet wheel, a slope, a cleaning mechanism and a collecting mechanism, wherein the rope winding mechanism comprises a fixed plate, a wire winding wheel and a wire winding assembly, the cleaning mechanism comprises an ejector rod and a cleaning assembly, the collecting mechanism comprises a folding rod and a collecting assembly, the wire winding wheel is arranged on the fixed plate, the wire winding assembly is connected with the wire winding wheel, the wire winding assembly is connected with the cleaning assembly, the ejector rod is connected with the cleaning assembly, the cleaning assembly is connected with the wire outlet wheel, the folding rod is arranged on the fixed plate, the folding rod is connected with the collecting assembly, the collecting assembly is connected with the wire winding wheel, and the collecting assembly is connected with the slope.

Description

Optical fiber cable winding correcting device

Technical Field

The invention relates to the technical field of optical cable winding equipment, and particularly discloses an optical fiber and optical cable winding correction device.

Background

The optical fiber cable winding correction device is equipment used in the production process of optical fiber cables and is used for solving the problems of twisting, bending or rotation and the like of the optical fiber cables due to the stress effect in the production, storage and use processes. With the continuous development of optical fiber communication technology, optical fiber cables are widely used in the fields of communication, internet, power and the like, and the quality and stability of the optical fiber cables are critical to the performance of a communication system. In the production process of the optical cable, the winding, storage and maintenance of the optical cable can cause deformation and damage of the optical cable, so that a reliable correction device is needed to ensure the stability and reliability of the optical cable; the optical fiber cable winding correction device utilizes an advanced sensor and a control system, can monitor the deformation and the position of the optical fiber cable in real time, quickly responds and corrects, and ensures that the optical fiber cable maintains a good state in winding, storage and use processes. The device plays an important role in the production, storage, transportation and installation processes of the optical cable, and becomes an important link in the optical fiber cable industry chain. Along with the wide application of the optical fiber communication technology, the research and development and the application of the optical fiber cable winding correction device are continuously innovated and perfected so as to meet the market demand of high-quality and high-reliability optical fiber cable products.

The invention of China with publication number CN105775901B discloses an outdoor optical cable winding device, which has the technical scheme that the outdoor optical cable winding device comprises a vehicle body, a reel, a grounding wheel, a friction wheel, a rotating plate and a tension spring, wherein the reel is arranged on the vehicle body through a rotating shaft a, the grounding wheel is arranged on the vehicle body through a rotating shaft B, and the central planes of the reel and the grounding wheel are overlapped; the friction wheel is arranged between the winding wheel and the grounding wheel and is respectively contacted with the winding wheel and the grounding wheel; the friction wheel is arranged on the rotating plate through a rotating shaft c, and the rotating plate is arranged on the vehicle body through a rotating shaft d; the tension spring is arranged in a triangle formed by the three-wheel central connecting line of the friction wheel, the winding wheel and the grounding wheel, one end of the tension spring is connected with the rotating plate, and the other end of the tension spring is connected with the vehicle body, but the invention can not automatically collect the wound optical cable, so that the optical fiber cable winding correction device is invented aiming at the defect.

Disclosure of Invention

The technical scheme adopted by the invention aiming at the technical problems is as follows: the utility model provides a fiber optic cable winding orthotic devices, includes wire reel, rope winding mechanism, slope, clearance mechanism and collection mechanism, rope winding mechanism include fixed plate, wire winding wheel and wire winding subassembly, clearance mechanism include ejector pin and clearance subassembly, collection mechanism include a roll over pole and collection subassembly, the wire winding wheel install on the fixed plate, the wire winding subassembly link to each other with the wire winding wheel, the wire winding subassembly link to each other with clearance subassembly, ejector pin link to each other with clearance subassembly, clearance subassembly link to each other with the wire reel, a roll over the pole and install on the fixed plate, a roll over the pole and link to each other with collection subassembly, collection subassembly link to each other with the wire winding wheel, collection subassembly link to each other with the slope.

Further, the fixed plate side be provided with first constant head tank, the kinking subassembly include the sliding shaft, sliding shaft fixed mounting on first constant head tank inner wall, sliding shaft surface slidable mounting have the sliding block, sliding block slidable mounting on first constant head tank inner wall, sliding shaft surface winding have the spring, spring one end fixed mounting on sliding shaft surface, spring other end fixed mounting on the sliding block, sliding block side fixed mounting have the second motor, second motor side fixed mounting have the second movable frame, second movable frame slidable mounting in the fixed plate side, second motor output be provided with the spline, second motor outward appearance install the kinking wheel, kinking wheel side be provided with the rectangular channel, the spline and the rectangular channel sliding connection of second motor output.

Further, second remove frame side fixed mounting have a first motor, the fixed plate side be provided with the spacing groove, spacing groove inner wall on slidable mounting have a first removal frame, first removal frame output and first removal frame rotate to be connected, first removal frame side be provided with the motion groove, motion groove inner wall on slidable mounting have a first slider, first slider side be provided with circular through-hole, circular through-hole internal fixation of first slider have the intermediate sleeve, intermediate sleeve surface rotate and install first connecting rod, the one end that intermediate sleeve was kept away from to the first connecting rod rotate and install the second connecting rod, second connecting rod fixed mounting at first motor output.

Further, the clearance subassembly include the drive axle, drive axle fixed mounting in first movable frame side, drive axle surface rotate and install the third connecting rod, the one end that first movable frame was kept away from to the third connecting rod rotate and install the connecting axle, the connecting axle downside fixed mounting have the second slider, the second slider on slidable mounting have the track piece, track piece fixed mounting in the fixed plate side, the second slider on rotate and install the fourth connecting rod, the fourth connecting rod on rotate and install the ejector pin, track piece on fixed mounting have vertical board, vertical board side be provided with the second constant head tank, ejector pin slidable mounting on the second constant head tank inner wall, cantilever bar fixed mounting is in track piece side, wire rotation is installed on cantilever bar surface.

Further, the ejector pin surface rotate and install the movable block, movable block slidable mounting on the second constant head tank inner wall, the movable block on be provided with the rectangle through-hole, the rectangle through-hole slidable mounting of movable block have the brush, the brush on fixed mounting have the gear, the movable block on fixed mounting have the rack, rack and gear engagement.

Further, the gear on rotate and install the movable rod, the movable rod surface rotate and install the fifth connecting rod, the one end that the movable rod was kept away from to the fifth connecting rod rotate and install the follower rod, follower rod upside fixed mounting have the follower block, follower block fixed mounting on first slider.

Further, collection subassembly include the inclined plane piece, inclined plane piece fixed mounting keep away from the side of first movable frame at the fixed plate, inclined plane piece side be provided with the inclined plane, the inclined plane of inclined plane piece along vertical decurrent direction height increase gradually, inclined plane piece inclined plane on slidable mounting have a roll over the pole, roll over pole slidable mounting and remove the side at the second movable frame, roll over pole and winding wheel side sliding connection.

Further, the side of the folding rod is provided with a driving chute, a limiting rod is slidably arranged on the inner wall of the driving chute, a connecting block is fixedly arranged on the upper side of the limiting rod, and the connecting block is fixedly arranged on the side of the fixing plate.

Further, collection subassembly still include down clamp block and lower cutting edge, lower clamp block and lower cutting edge all fixed mounting in the track piece upside, lower clamp block top install the fixed block, last fixed block fixed mounting remove the frame side in the second, lower cutting edge top install cutting edge, last cutting edge fixed mounting remove the frame side in the second.

Compared with the prior art, the invention has the beneficial effects that: (1) The invention realizes that the cable is automatically and uniformly wound on the winding wheel, and avoids extrusion caused by uneven production line; (2) The invention realizes the automatic cleaning of the outer surface of the cable in the process of winding the cable, and avoids the damage to the cable caused by sharp pollution discharge on the outer surface of the cable; (3) The invention realizes automatic collection of the wire reel wound with the wire and cutting and clamping of the wire.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure of the winding assembly of the present invention.

Fig. 3 is a schematic view of a partial enlarged structure at a in fig. 2.

Fig. 4 is a schematic view of a partial enlarged structure at B in fig. 2.

FIG. 5 is a schematic view of a cleaning assembly according to the present invention.

Fig. 6 is a schematic view of a partial enlarged structure at C in fig. 5.

FIG. 7 is a schematic view of the structure of the collecting assembly of the present invention.

Fig. 8 is a schematic view of a partial enlarged structure at D in fig. 7.

Fig. 9 is a schematic view of a partial enlarged structure at E in fig. 7.

FIG. 10 is a schematic diagram of the relationship between the collecting assembly and the slope according to the present invention.

Fig. 11 is a schematic view of a partial enlarged structure at F in fig. 10.

Reference numerals: 1-rope winding mechanism; 2-a wire outlet wheel; 3-ramp; 4-a cleaning mechanism; 5-a collection mechanism; 101-a first mobile frame; 102-a first motor; 103-a second motor; 104-a second mobile frame; 105-a fixed plate; 106, a limit groove; 107-winding wheels; 108-sliding blocks; 109-sliding shaft; 110-a spring; 111-a first positioning groove; 112-a motion slot; 113-a first slider; 114-middle sleeve; 115-a first link; 116-a second link; 117-rectangular grooves; 401-a third link; 402-fourth link; 403-track blocks; 404-a second slider; 405-connecting shaft; 406-driving shaft; 407-vertical plate; 408-a second detent; 409-moving block; 410-ejector rod; 411-moving a rod; 412-a gear; 413-racks; 414-brush; 415-a fifth link; 416-follower bar; 417-follower block; 418-cantilever bar; 501-a lower clamping block; 502-lower cutting edge; 503-upper fixing block; 504-upper cutting edge; 505-ramp blocks; 506-connecting blocks; 507—a restraining bar; 508-folding the rod; 509-drive chute.

Detailed Description

The technical scheme of the invention is further described in the following by combining with the specific embodiments.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

As shown in fig. 2 to 10, the rope winding mechanism 1 comprises a fixed plate 105, a winding wheel 107 and a winding assembly, the cleaning mechanism 4 comprises an ejector rod 410 and a cleaning assembly, the collecting mechanism 5 comprises a folding rod 508 and a collecting assembly, the winding wheel 107 is arranged on the fixed plate 105, the winding assembly is connected with the winding wheel 107, the winding assembly is connected with the cleaning assembly, the ejector rod 410 is connected with the cleaning assembly, the cleaning assembly is connected with the wire outlet wheel 2, the folding rod 508 is arranged on the fixed plate 105, the folding rod 508 is connected with the collecting assembly, the collecting assembly is connected with the winding wheel 107, and the collecting assembly is connected with the slope 3.

As shown in fig. 3 to 11, a first positioning groove 111 is formed in the side surface of the fixed plate 105, the winding assembly comprises a sliding shaft 109, the sliding shaft 109 is fixedly arranged on the inner wall of the first positioning groove 111, a sliding block 108 is slidably arranged on the outer surface of the sliding shaft 109, the sliding block 108 is slidably arranged on the inner wall of the first positioning groove 111, a spring 110 is wound on the outer surface of the sliding shaft 109, one end of the spring 110 is fixedly arranged on the outer surface of the sliding shaft 109, the other end of the spring 110 is fixedly arranged on the sliding block 108, a second motor 103 is fixedly arranged on the side surface of the sliding block 108, a second moving frame 104 is fixedly arranged on the side surface of the second motor 103, the second moving frame 104 is slidably arranged on the side surface of the fixed plate 105, a spline is arranged at the output end of the second motor 103, a winding wheel 107 is externally arranged on the second motor 103, a rectangular groove 117 is slidably connected with the spline at the output end of the second motor 103; the side surface of the second movable frame 104 is fixedly provided with a first motor 102, the side surface of the fixed plate 105 is provided with a limit groove 106, the inner wall of the limit groove 106 is provided with a first movable frame 101 in a sliding manner, the output end of the first movable frame 101 is rotationally connected with the first movable frame 101, the side surface of the first movable frame 101 is provided with a movement groove 112, the inner wall of the movement groove 112 is provided with a first sliding block 113 in a sliding manner, the side surface of the first sliding block 113 is provided with a circular through hole, an intermediate sleeve 114 is fixedly arranged in the circular through hole of the first sliding block 113, the outer surface of the intermediate sleeve 114 is rotationally provided with a first connecting rod 115, one end of the first connecting rod 115 far away from the intermediate sleeve 114 is rotationally provided with a second connecting rod 116, and the second connecting rod 116 is fixedly arranged at the output end of the first motor 102; the cleaning assembly comprises a driving shaft 406, the driving shaft 406 is fixedly arranged on the side surface of the first movable frame 101, a third connecting rod 401 is rotatably arranged on the outer surface of the driving shaft 406, a connecting shaft 405 is rotatably arranged at one end, far away from the first movable frame 101, of the third connecting rod 401, a second sliding block 404 is fixedly arranged on the lower side of the connecting shaft 405, a track block 403 is slidably arranged on the second sliding block 404, the track block 403 is fixedly arranged on the side surface of the fixed plate 105, a fourth connecting rod 402 is rotatably arranged on the second sliding block 404, a push rod 410 is rotatably arranged on the fourth connecting rod 402, a vertical plate 407 is fixedly arranged on the track block 403, a second positioning groove 408 is arranged on the side surface of the vertical plate 407, the push rod 410 is slidably arranged on the inner wall of the second positioning groove 408, a cantilever rod 418 is fixedly arranged on the side surface of the track block 403, and the wire outgoing wheel 2 is rotatably arranged on the outer surface of the cantilever rod 418.

As shown in fig. 4 to 10, a moving block 409 is rotatably mounted on the outer surface of the ejector rod 410, the moving block 409 is slidably mounted on the inner wall of the second positioning groove 408, a rectangular through hole is formed in the moving block 409, a brush 414 is slidably mounted in the rectangular through hole of the moving block 409, a gear 412 is fixedly mounted on the brush 414, a rack 413 is fixedly mounted on the moving block 409, and the rack 413 is meshed with the gear 412; the gear 412 is rotatably provided with a moving rod 411, the outer surface of the moving rod 411 is rotatably provided with a fifth connecting rod 415, one end of the fifth connecting rod 415 far away from the moving rod 411 is rotatably provided with a following rod 416, the upper side of the following rod 416 is fixedly provided with a following block 417, and the following block 417 is fixedly arranged on the first sliding block 113.

As shown in fig. 5 to 11, the collecting assembly comprises a bevel block 505, wherein the bevel block 505 is fixedly arranged on the side surface of the fixed plate 105 far away from the first movable frame 101, the side surface of the bevel block 505 is provided with a bevel, the height of the bevel block 505 is gradually increased along the vertical downward direction, a folding rod 508 is slidably arranged on the bevel of the bevel block 505, the folding rod 508 is slidably arranged on the side surface of the second movable frame 104, and the folding rod 508 is slidably connected with the side surface of the winding wheel 107; a driving chute 509 is arranged on the side surface of the folding rod 508, a limiting rod 507 is slidably arranged on the inner wall of the driving chute 509, a connecting block 506 is fixedly arranged on the upper side of the limiting rod 507, and the connecting block 506 is fixedly arranged on the side surface of the fixed plate 105; the collection assembly further comprises a lower clamping block 501 and a lower cutting edge 502, wherein the lower clamping block 501 and the lower cutting edge 502 are fixedly arranged on the upper side of the track block 403, an upper fixing block 503 is arranged above the lower clamping block 501, the upper fixing block 503 is fixedly arranged on the side surface of the second movable frame 104, an upper cutting edge 504 is arranged above the lower cutting edge 502, and the upper cutting edge 504 is fixedly arranged on the side surface of the second movable frame 104.

The invention discloses an optical fiber cable winding correction device, which has the following working principle.

The first motor 102 and the second motor 103 are started after the cable on the wire outgoing wheel 2 passes through the middle sleeve 114 to be wound on the wire winding wheel 107, the first motor 102 drives the wire winding wheel 107 to rotate, the cable is wound on the outer surface of the wire winding wheel 107 through the rotation of the wire winding wheel 107, the second connecting rod 116 is driven to rotate when the first motor 102 rotates, the second connecting rod 116 drives the first connecting rod 115 to move, the first connecting rod 115 drives the first sliding block 113 to slide back and forth along the movement groove 112, the first sliding block 113 drives the middle sleeve 114 to reciprocate, so that the cable is uniformly wound on the outer surface of the wire winding wheel 107, and the wire winding wheel 107 gradually slides downwards along the outer surface of the sliding shaft 109 along with the increase of the weight of the cable on the outer surface of the wire winding wheel 107.

When the winding wheel 107 slides downwards, the second moving frame 104 is driven to slide downwards, the second moving frame 104 drives the first moving frame 101 to slide downwards, the first moving frame 101 drives the driving shaft 406 to move downwards, the driving shaft 406 drives the third connecting rod 401 to move, the third connecting rod 401 drives the second sliding block 404 to slide along the track block 403 through the connecting shaft 405, the connecting shaft 405 drives the fourth connecting rod 402 to move, the fourth connecting rod 402 drives the ejector rod 410 to move upwards, the cable is tensioned through the upward movement of the ejector rod 410, the first sliding block 113 drives the following block 417 to reciprocate when the first sliding block 113 reciprocates, the following block 417 drives the following rod 416 to reciprocate, the following rod 416 drives the fifth connecting rod 415 to reciprocate, the fifth connecting rod 415 drives the moving rod 411 to reciprocate, the gear 412 is driven to rotate under the action of the rack 413 when the gear 411 drives the brush 414 to rotate, and therefore the outer surface of the cable is cleaned through the brush 414.

And (III) the sliding block 108 descends when the winding wheel 107 moves downwards, at the moment, the second moving frame 104 drives the folding rod 508 to move downwards, the folding rod 508 starts to push the winding wheel 107 to slide along the spline of the second motor 103 under the action of the inclined surface block 505, when the winding wheel 107 descends to the lowest position, the cable is cut off through the lower cutting edge 502 and the upper cutting edge 504, the cut cable is clamped through the lower clamping block 501 and the upper fixing block 503, then the folding rod 508 pushes the winding wheel 107 to the output end of the second motor 103, and then the winding wheel 107 slides down through the inclined surface 3.

Claims

1. The utility model provides a fiber optic cable twines orthotic devices, includes wire reel (2), its characterized in that: the utility model provides an optical fiber cable winding orthotic devices still includes rope winding mechanism (1), slope (3), clearance mechanism (4) and collection mechanism (5), rope winding mechanism (1) include fixed plate (105), winding wheel (107) and winding subassembly, clearance mechanism (4) include ejector pin (410) and clearance subassembly, collection mechanism (5) including book pole (508) and collection subassembly, winding wheel (107) install on fixed plate (105), winding subassembly link to each other with winding wheel (107), winding subassembly link to each other with the clearance subassembly, ejector pin (410) link to each other with the clearance subassembly, the clearance subassembly link to each other with wire outgoing wheel (2), book pole (508) install on fixed plate (105), book pole (508) link to each other with collection subassembly, collection subassembly link to each other with winding wheel (107), collection subassembly link to each other with slope (3).

2. The fiber optic cable winding correction device of claim 1, wherein: the utility model provides a fixed plate (105) side be provided with first constant head tank (111), the kinking subassembly include slide shaft (109), slide shaft (109) fixed mounting on first constant head tank (111) inner wall, slide shaft (109) surface slidable mounting have slider (108), slider (108) slidable mounting on first constant head tank (111) inner wall, slide shaft (109) surface winding have spring (110), spring (110) one end fixed mounting on slide shaft (109) surface, spring (110) other end fixed mounting on slider (108), slider (108) side fixed mounting have second motor (103), second motor (103) side fixed mounting have second movable frame (104), second movable frame (104) slidable mounting at fixed plate (105) side, second motor (103) output be provided with the spline, second motor (103) outward appearance wheel install spring (110), kinking wheel (107) side fixed mounting have second motor (117) and spline (117) of kinking wheel (107).

3. The fiber optic cable winding correction device of claim 2, wherein: the utility model provides a second remove frame (104) side fixed mounting have first motor (102), fixed plate (105) side be provided with spacing groove (106), spacing groove (106) inner wall on slidable mounting have first removal frame (101), first removal frame (101) output and first removal frame (101) rotate to be connected, first removal frame (101) side be provided with movement groove (112), movement groove (112) inner wall on slidable mounting have first slider (113), first slider (113) side be provided with circular through-hole, circular through-hole in fixed mounting of first slider (113) have middle cover (114), middle cover (114) surface rotation install first connecting rod (115), one end that middle cover (114) were kept away from to first connecting rod (115) rotate and install second connecting rod (116), second connecting rod (116) fixed mounting at first motor (102) output.

4. A fiber optic cable winding correction device as claimed in claim 3, wherein: the cleaning component comprises a driving shaft (406), the driving shaft (406) is fixedly arranged on the side face of a first movable frame (101), a third connecting rod (401) is rotatably arranged on the outer surface of the driving shaft (406), a connecting shaft (405) is rotatably arranged at one end, far away from the first movable frame (101), of the third connecting rod (401), a second sliding block (404) is fixedly arranged on the lower side of the connecting shaft (405), a track block (403) is slidably arranged on the second sliding block (404), the track block (403) is fixedly arranged on the side face of a fixed plate (105), a fourth connecting rod (402) is rotatably arranged on the second sliding block (404), a top rod (410) is fixedly arranged on the track block (403), a second positioning groove (408) is arranged on the side face of the vertical plate (407), a track rod (418) is fixedly arranged on the side face of a wire outgoing wheel (418), and a cantilever rod (418) is rotatably arranged on the outer surface of the cantilever wheel (2).

5. The fiber optic cable winding correction device of claim 4, wherein: the ejector rod (410) surface rotate and install movable block (409), movable block (409) slidable mounting on second constant head tank (408) inner wall, movable block (409) on be provided with rectangular through-hole, rectangular through-hole slidable mounting of movable block (409) have brush (414), brush (414) on fixed mounting have gear (412), movable block (409) on fixed mounting have rack (413), rack (413) and gear (412) meshing.

6. The fiber optic cable winding correction device of claim 5, wherein: the gear (412) on rotate and install movable rod (411), movable rod (411) surface rotate and install fifth connecting rod (415), one end that movable rod (411) was kept away from to fifth connecting rod (415) rotate and install follower rod (416), follower rod (416) upside fixed mounting have follower block (417), follower block (417) fixed mounting on first slider (113).

7. The fiber optic cable winding correction device of claim 6, wherein: the collection subassembly include inclined plane piece (505), inclined plane piece (505) fixed mounting keep away from the side of first removal frame (101) at fixed plate (105), inclined plane piece (505) side be provided with the inclined plane, inclined plane piece (505) inclined plane along vertical decurrent direction height increase gradually, inclined plane piece (505) inclined plane on slidable mounting have roll over pole (508), roll over pole (508) slidable mounting in second removal frame (104) side, roll over pole (508) and kink wheel (107) side sliding connection.

8. The fiber optic cable winding correction device of claim 7, wherein: the folding rod (508) side be provided with drive spout (509), drive on spout (509) inner wall slidable mounting have restriction pole (507), restriction pole (507) upside fixed mounting have connecting block (506), connecting block (506) fixed mounting in fixed plate (105) side.

9. The fiber optic cable winding correction device of claim 8, wherein: the collection assembly also comprises a lower clamping block (501) and a lower cutting edge (502), wherein the lower clamping block (501) and the lower cutting edge (502) are fixedly arranged on the upper side of the track block (403), an upper fixing block (503) is arranged above the lower clamping block (501), the upper fixing block (503) is fixedly arranged on the side face of the second movable frame (104), an upper cutting edge (504) is arranged above the lower cutting edge (502), and the upper cutting edge (504) is fixedly arranged on the side face of the second movable frame (104).