CN218728233U - Communication optical cable winding displacement structure - Google Patents
Communication optical cable winding displacement structure Download PDFInfo
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- CN218728233U CN218728233U CN202223088330.XU CN202223088330U CN218728233U CN 218728233 U CN218728233 U CN 218728233U CN 202223088330 U CN202223088330 U CN 202223088330U CN 218728233 U CN218728233 U CN 218728233U
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- winding displacement
- winding
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- optical cable
- sliding
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
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Abstract
The utility model discloses a communication optical cable winding displacement structure, including winding displacement platform, winding displacement structure, sliding construction, defeated line structure, wire winding structure, locker and removal wheel, winding displacement platform bottom is equipped with the locker, locker bottom four corners is located and is removed the wheel, winding displacement bench top portion one end is located to the winding displacement structure, sliding construction locates winding displacement bench top portion, the winding displacement bench top portion other end is located to the wire winding structure, sliding construction top is located to the defeated line structure. Compared with the prior art, the utility model the advantage lie in: the utility model discloses defeated line structure adopts compression spring, grip block and protective sheath, through compression spring with grip block and optical cable contact, has realized the fixed action to not unidimensional optical cable to the protective sheath can also protect the optical cable.
Description
Technical Field
The utility model relates to a communication optical cable technical field specifically is a communication optical cable winding displacement structure.
Background
The communication optical cable is composed of a core and an outer protective layer, which are composed of a plurality of single-wire optical fibers, compared with the traditional symmetrical copper loop and coaxial copper loop, the optical fiber has the advantages of much larger transmission capacity, less attenuation, long transmission distance, small volume, light weight, no electromagnetic interference, low cost and the like, is the current most promising communication transmission medium, is widely used for signal transmission of various departments such as telecommunication, electric power, broadcasting and the like, and gradually becomes the main body of a future communication network.
The arrangement of the communication optical cables is disordered due to the fact that the number of the communication optical cables is large in real life, and optical cable wiring harnesses are very disordered when the communication optical cables are connected with communication transmission equipment, so that a communication optical cable wiring device is provided to solve the problems; the utility model discloses a communication optical cable winding displacement device is disclosed in publication number CN213517684U, relates to the communication technology field, the on-line screen storage device comprises a base, the front end fixedly connected with symmetrical first backup pad of base, be provided with the threaded rod between the first backup pad, the left end fixedly connected with first motor of first backup pad, the one side fixedly connected with that first backup pad is close to each other has the slide rail, the surface threaded connection of threaded rod has the slider, and the last fixed surface of slider is connected with symmetrical second backup pad, the one side fixedly connected with axis of rotation that the second backup pad is close to each other.
The existing optical cable winding displacement structure has the following defects:
1. only one optical cable can be arranged at a time, and when more optical cables need to be arranged, the time is wasted, and the working efficiency is reduced;
2. the optical cable needs to swing back and forth during manual cable arrangement, so that the workload is increased, and the labor force of workers is increased.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to overcome above technical defect, provide a communication optical cable winding displacement structure.
In order to solve the above problem, the technical scheme of the utility model is that: the utility model provides a communication optical cable winding displacement structure, includes winding displacement platform, winding displacement structure, sliding construction, defeated line structure, wire winding structure, locker and removal wheel, winding displacement platform bottom is equipped with the locker, the removal wheel is located in locker bottom four corners, winding displacement bench top portion one end is located to the winding displacement structure, wire winding bench top portion is located to sliding construction, the winding displacement bench top portion other end is located to the wire winding structure, the sliding construction top is located to defeated line structure.
Furthermore, the top of the wire arranging platform is provided with a sliding groove.
Further, the winding displacement structure includes first support column, winding displacement dish, winding displacement hole, fixed plate, dead slot, rotation axis and rotary disk, first support column fixed connection is in winding displacement bench top one end, first support column top is located to the winding displacement dish, be equipped with a plurality of winding displacement holes in the winding displacement dish, the inside both sides of winding displacement hole are located to the fixed plate, the dead slot is located in the fixed plate, the rotary disk is located in the dead slot, the rotation axis alternates in the rotary disk.
Further, the sliding structure includes threaded rod, screw thread piece and motor, the threaded rod is located in the sliding tray, the screw thread piece activity is located the threaded rod, the motor is located the winding displacement platform and is close to winding displacement structure one end, motor output shaft is connected to threaded rod one end.
Further, defeated line structure includes second support column, defeated line dish, puts line hole, pressure spring, grip block, protection pad, second support column fixed connection screw thread piece top, defeated line dish fixed connection is in second support column top, be equipped with a plurality of line holes of putting in the defeated line dish, it is equipped with pressure spring to put downthehole one side of putting, pressure spring one end is connected puts the line downthehole wall, and the grip block is connected to the other end, the grip block inboard is equipped with the protection pad.
Further, winding structure includes fixing base, spool and baffle, fixing base fixed connection keeps away from winding structure one end in the winding displacement platform, the fixing base top is located to the spool, the spool is located in the baffle activity, be equipped with the happy fast motor in the fixing base, and slow motor output shaft connection spool.
Compared with the prior art, the utility model the advantage lie in:
1. the wire conveying structure adopts a pressure spring, a clamping plate and a protective sleeve, the clamping plate is contacted with the optical cables through the pressure spring, the fixing effect on the optical cables with different sizes is realized, and the protective sleeve can also protect the optical cables;
2. the multi-wire winding device is provided with the wire placing holes, the wire arranging holes and the winding shaft, so that various optical cables can work simultaneously, and the working efficiency is improved;
3. when the winding structure is used, redundant optical cables can be temporarily stored, and the winding condition of the redundant optical cables is avoided when the redundant optical cables are placed.
Drawings
Fig. 1 is a structural diagram of the flat cable structure of the communication optical cable of the present invention.
Fig. 2 is a structural view of the flat cable structure.
Fig. 3 is a structural view of the wire transfer structure.
Fig. 4 is a structural view of the sliding structure.
As shown in the figure: 1. a wire arranging table; 1.1, a sliding groove; 2. a flat cable structure; 2.1, a first support column; 2.2, winding displacement disks; 2.3, arranging wire holes; 2.4, fixing a plate; 2.5, empty groove; 2.6, a rotating shaft; 2.7, rotating the disc; 3. a sliding structure; 3.1, a threaded rod; 3.2, a thread block; 3.3, a motor; 4. a wire conveying structure; 4.1, a second support column; 4.2, conveying a wire disc; 4.3, placing a thread hole; 4.4, a pressure spring; 4.5, clamping a plate; 4.6, a protective pad; 5. a winding structure; 5.1, fixing a seat; 5.2, winding shafts; 5.3, a baffle plate; 6. a storage cabinet; 7. the wheel is moved.
Detailed Description
The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals.
It should be noted that as used in the following description, the terms "front," "back," "left," "right," "upper" and "lower" refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.
In order to make the content of the present invention more clearly understood, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the attached drawings in the embodiment of the present invention.
As shown in fig. 1 to 3, a traverse table 1, a traverse structure 2, a first support 2.1, a traverse disk 2.2, a traverse hole 2.3, a fixing plate 2.4, a hollow groove 2.5, a rotating shaft 2.6, a rotating disk 2.7, a traverse structure 4, a second support column 4.1, a traverse disk 4.2, a wire placing hole 4.3, a pressure spring 4.4, a clamping plate 4.5, a protection pad 4.6, a winding structure 5, a fixing seat 5.1, a winding shaft 5.2, a baffle 5.3, a storage cabinet 6 and a moving wheel 7 are arranged on the top of the traverse table 1, a sliding groove 1.1 is arranged on the top of the traverse table 1.1, a sliding structure 3 is arranged in the sliding groove 1.1, a second support 4.1 is arranged on the top of the sliding structure 3, a traverse disk 42 is fixed on the top of the second support column 4.1, a plurality of wire placing holes 4.3 are arranged in the traverse disk 4.2, one end of the pressure spring 4.4 is connected with the inner wall of the cable placing hole 4.3, the other end is connected with the clamping plate 4.5, the inner side of the clamping plate 4.5, the protection pad 4.6 is extruded by the pressure spring 4.4, the pressure pad 4.5, the protective pad 4.6 can prevent the optical cable from being scratched by the clamping plate 4.5 in the sliding process, the cable arranging platform 1 is provided with the cable arranging structure 2 at one end, the first supporting column 2.1 of the cable arranging structure 2 is fixed at one end of the cable arranging platform 1, the cable arranging disk 2.2 is fixed at the top of the first supporting column 2.1, the cable arranging disk 22 is provided with a plurality of cable arranging holes 2.3, the two sides of the inner wall of each cable arranging hole 2.3 are provided with the fixing plates 2.4, the fixing plates 2.4 are provided with the empty slots 2.5, the rotating disk 2.7 is movably arranged in the empty slots 2.5 through the rotating shaft 2.6, the rotating disk 2.7 is driven through the rotating shaft 2.6 to clamp and convey the optical cable, the winding structure 5 is arranged at one end of the cable arranging platform 1 far away from the cable arranging structure 2, the fixing seat 5.1 is internally provided with the retarding motor, the output shaft of the retarding motor is connected with the winding shaft 5.2, the optical cable is wound on the winding shaft 5.2 through the electric winding shaft 5.2, the retarding motor, the winding shaft 5.2 is also provided with the winding baffle 5.3, and can prevent the winding plate from being wound too much, the optical cable slips.
As shown in fig. 4, the sliding structure includes a threaded rod 3.1, a threaded block 3.2, and a motor 3.3, the threaded rod 3.1 is disposed in the sliding groove 1.1, the motor 3.3 is disposed at one end of the wire arranging table 1, an output shaft of the motor 3.3 is connected with one end of the threaded rod 3.1, the threaded rod 3.1 is sleeved with the threaded block 3.2, and the wire transferring structure 4 at the top of the threaded block 3.2 is moved back and forth by forward and reverse rotation of the motor 3.3.
In a particular use:
the optical cable penetrates into a flat cable hole 2.3 in a flat cable structure 2, the optical cable is conveyed to a wire placing hole 4.3 of the wire conveying structure 4 through rotation of a rotary disc 2.7, the clamping plate 4.5 is pushed to clamp and fix the optical cables with different thicknesses through the pressure action of a pressure spring 4.4, the wire conveying structure 4 is driven by a thread block 3.2 on a threaded rod 3.1 of a sliding device 3 after fixation, the optical cable is wound on a winding shaft 5.2 by sliding towards one end of a winding structure 5 of a flat cable table 1, when the optical cable is used reversely, the optical cable on the winding shaft 5.2 is placed into the wire placing hole 4.3, the threaded rod 3.1 rotates reversely to convey the wire conveying structure 4 to one end of the flat cable structure 2, the optical cables needing to be combined are placed together through the flat cable structure 2, and the winding structure 5 can prevent the optical cable from being wound behind the flat cable in the flat cable arranging process so as not to influence subsequent work.
The present invention and its embodiments have been described above, but the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.
Claims (6)
1. The utility model provides a communication optical cable winding displacement structure which characterized in that: including winding displacement platform (1), winding displacement structure (2), sliding structure (3), defeated line structure (4), wire winding structure (5), locker (6) and removal wheel (7), winding displacement platform (1) bottom is equipped with locker (6), locker (6) bottom four corners is located and is removed wheel (7), winding displacement platform (1) top one end is located in winding displacement structure (2), winding displacement platform (1) top is located in sliding structure (3), winding displacement platform (1) top other end is located in wire winding structure (5), sliding structure (3) top is located in defeated line structure (4).
2. The optical communication cable harness structure according to claim 1, wherein: the top of the wire arranging platform (1) is provided with a sliding groove (1.1).
3. The optical communication cable harness structure according to claim 1, wherein: winding displacement structure (2) include first support column (2.1), winding displacement dish (2.2), winding displacement hole (2.3), fixed plate (2.4), dead slot (2.5), rotation axis (2.6) and rotary disk (2.7), first support column (2.1) fixed connection is in winding displacement platform (1) top one end, first support column (2.1) top is located in winding displacement dish (2.2), be equipped with a plurality of winding displacement hole (2.3) in winding displacement dish (2.2), the inside both sides in winding displacement hole (2.3) are located in fixed plate (2.4) in dead slot (2.5), in dead slot (2.5) are located dead slot (2.5), rotation axis (2.6) are worn to be inserted in rotary disk (2.7).
4. The optical communication cable harness structure according to claim 3, wherein: sliding construction (3) include threaded rod (3.1), screw thread piece (3.2) and motor (3.3), sliding tray (1.1) is located in threaded rod (3.1), screw thread piece (3.2) activity is located threaded rod (3.1), winding displacement platform (1) is located in motor (3.3) and is close to winding displacement structure (2) one end, motor (3.3) output shaft is connected to threaded rod (3.1) one end.
5. The optical communication cable harness structure according to claim 4, wherein: defeated line structure (4) include second support column (4.1), defeated line dish (4.2), put line hole (4.3), pressure spring (4.4), grip block (4.5), protection pad (4.6), second support column (4.1) fixed connection thread piece (3.2) top, defeated line dish (4.2) fixed connection is in second support column (4.1) top, be equipped with a plurality of line holes (4.3) of putting in defeated line dish (4.2), it is equipped with pressure spring (4.4) to put one side in line hole (4.3), pressure spring (4.4) one end is connected and is put line hole (4.3) inner wall, and grip block (4.5) are connected to the other end, grip block (4.5) inboard is equipped with protection pad (4.6).
6. The optical communication cable harness structure according to claim 4, wherein: winding structure (5) are including fixing base (5.1), spool (5.2) and baffle (5.3), winding structure (2) one end is kept away from in winding displacement platform (1) fixing base (5.1) fixed connection, fixing base (5.1) top is located in spool (5.2), spool (5.2) are located in baffle (5.3) activity, be equipped with the fast motor of happy in fixing base (5.1), and slow motor output shaft spool (5.2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223088330.XU CN218728233U (en) | 2022-11-17 | 2022-11-17 | Communication optical cable winding displacement structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223088330.XU CN218728233U (en) | 2022-11-17 | 2022-11-17 | Communication optical cable winding displacement structure |
Publications (1)
Publication Number | Publication Date |
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CN218728233U true CN218728233U (en) | 2023-03-24 |
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Application Number | Title | Priority Date | Filing Date |
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CN202223088330.XU Active CN218728233U (en) | 2022-11-17 | 2022-11-17 | Communication optical cable winding displacement structure |
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CN (1) | CN218728233U (en) |
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- 2022-11-17 CN CN202223088330.XU patent/CN218728233U/en active Active
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