CN218383417U - Prevent winding fine dish and around fine ware of fine winding - Google Patents

Abstract

The utility model relates to an optical fiber equipment technical field discloses a prevent winding fine dish and around fine ware of optic fibre winding, it includes left end plate, left winding fine section of thick bamboo, jumps fine board, right winding fine section of thick bamboo and right end plate to wind fine dish, be parallel to each other between left end plate, jump fine board and the right end plate at the interval, left end plate and jump fine board are connected respectively at the both ends of left winding fine section of thick bamboo, jump fine board and right end plate connect respectively at the both ends of right winding fine section of thick bamboo, separate the jump fine board of left winding fine section of thick bamboo and right winding fine section of thick bamboo have the jump fine groove of being convenient for jumping the fine; the fiber winding device comprises a fiber winding box and a plurality of fiber winding disks which can be independently installed in the fiber winding box, and pipelines among the fiber winding disks are prevented from being wound by separating the fiber winding disks through the fiber winding box. Therefore, the utility model has the advantages of prevent to jump the winding of fine.

Description

Prevent winding fine dish and around fine ware of fine winding

Technical Field

The utility model relates to an optical fiber equipment technical field, specific theory is a prevent winding fine dish and around fine ware of fine winding of optic fibre.

Background

Information and communication technology is increasingly demanded as one of core technologies for determining the operation construction and development speed of the smart grid. With the continuous development of power communication networks, the number of optical cables has increased year by year, and optical cables have become the main bearing channel of power core services such as protection, automation, integrated data networks and the like. The number of the jumping fibers used in the optical fiber distribution screen is greatly increased due to the annual increase of the optical fiber service volume, and the conventional method is to stack and wind all the jumping fibers on the same fiber winding disc, so that the jumping fibers are easily wound, the jumping fiber length cannot be adjusted, the lower layer jumping fibers cannot be taken out, and the jumping fibers are disordered and inconvenient to arrange and maintain.

Therefore, the utility model provides an antiwind formula optic fibre is around fine ware with novel structure to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned problem, a prevent that optical fiber winding is around fine dish and around fine ware is provided, it is around fine a section of thick bamboo and right side around fine a section of thick bamboo respectively to the fine space of accomodating of optic fibre tail through a left side around fine a section of thick bamboo, set up the fine groove of jumping of being convenient for jump fine again on the fine board of jumping that separates around fine a section of thick bamboo and right side around fine a section of thick bamboo simultaneously, the fine intertwine's of preventing to appear jumping situation, effectively avoid because of the optic fibre damage that the winding leads to, make and jump fine neat going on in order, facilitate for subsequent maintenance work.

First, the utility model provides a prevent winding fine dish of fine winding of optic fibre. Wind fine dish, including left end plate, a left side around fine section of thick bamboo, jump fine board, the right side around fine section of thick bamboo and right end plate, the interval that is parallel to each other between left end plate, jump fine board and the right end plate, left end plate and jump fine board are connected respectively a left side is around the both ends of fine section of thick bamboo, jump fine board with the right end plate is connected respectively the right side is around the both ends of fine section of thick bamboo, separates a left side is around fine section of thick bamboo and the right side is around fine section of thick bamboo jump fine groove that the jump fine section of thick bamboo has the jump fine of being convenient for to jump.

In order to realize better the utility model discloses, further, jump the fine board respectively with a left side around a fine section of thick bamboo the right side is a whole around fine section of thick bamboo board fixed connection, a left side around a fine section of thick bamboo with the left end plate rotates to be connected, the right side around a fine section of thick bamboo with the right end plate rotates to be connected.

In order to realize better the utility model discloses, further, a left side is installed around a fine section of thick bamboo rotation the left end plate with jump between the fine board, the right side is installed around a fine section of thick bamboo rotation jump the fine board with between the right end plate.

In order to realize better the utility model discloses, further, a left side around fine section of thick bamboo with the right side is diameter more than or equal to 6 cm's drum around fine section of thick bamboo.

Secondly, the utility model provides a prevent that optical fiber is winding fine ware, include around fine box and structure as above around fine dish, be equipped with a plurality of slots in the fine box of winding, be located around fine dish in the slot.

The fine ware of winding includes around fine dish and can carry out neatly putting around fine box around fine dish, when the winding is accomodate to the fine tail fiber of the optical fiber that the quantity is more, and the batch in the guarantee rack jumps fine in good order, can be used for the fixed slot around fine dish to number in the fine box of winding simultaneously, lets slot number and optical fiber number one-to-one, lets many optic fibre neatly arrange in order, thoroughly stops the emergence of winding phenomenon, further seeks optic fibre when making things convenient for follow-up maintenance.

In order to realize better the utility model discloses, still further, including bottom plate, rear end plate, lamina tecti, two curb plates and a plurality of baffle around fine box, be located the bottom plate, be located the rear portion the rear end plate with be located two lateral parts respectively the curb plate forms jointly the inner chamber around fine box, a plurality of baffle parallel arrangement is in the inner chamber around fine box and separate it for a plurality of slots.

In order to better realize the utility model, furthermore, the baffle is fixedly connected on the bottom plate.

In order to better realize the utility model discloses, still further, correspond each on the back end plate the slot position all is equipped with the through-hole that is used for jumping the fine and passing.

In order to better realize the utility model discloses, still further, still include the lamina tecti around fine box, the lamina tecti with the back end plate rotates to be connected.

Through the technical scheme, the following technical effects are achieved:

(1) The utility model provides a prevent winding fine dish of fine winding of optic fibre, through a left side around a fine section of thick bamboo and right side around a fine section of thick bamboo provide the space of twining alone and accomodating to optic fibre tail optical fiber respectively, set up the fine groove of jumping of being convenient for jump fine again on the fine board of jumping that will be around a fine section of thick bamboo and right side on a fine section of thick bamboo wall on a left side simultaneously, prevent to appear jumping fine intertwine's the situation, effectively avoid because of the winding the optic fibre damage that leads to, make to jump fine neat going on in order, facilitate for subsequent maintenance work.

(2) The utility model provides a prevent winding fine ware of fine winding of optic fibre, include around fine dish and can go on neatly putting in order around fine box around fine dish, when the winding of the more optic fibre tail optical fibre of quantity is accomodate, the fine neat order of batch jump in the guarantee rack, can be used for the fixed slot around fine dish to number in winding fine box simultaneously, let slot number and optic fibre number one-to-one, let many optic fibre neatly arrange in order, thoroughly stop winding phenomenon's emergence, further seek optic fibre when making things convenient for follow-up maintenance.

Drawings

The technical solutions described below will be clearly and completely described with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention.

Fig. 1 is a schematic perspective view of a fiber winding device for preventing optical fiber from winding;

fig. 2 is a schematic perspective view of a fiber winding disc for preventing optical fiber from winding provided in the present invention;

fig. 3 is a front view of the fiber winding disc of the present invention;

fig. 4 is a front view of the fiber winding box of the present invention;

fig. 5 is a schematic perspective view of a fiber arranging plate of the present invention.

Wherein: 1. winding a fiber disc; 11. a left end plate; 12. a left fiber winding drum; 13. a fiber jumping board; 131. jumping fiber grooves; 14. a right fiber winding drum; 15. a right end plate; 2. a fiber winding box; 21. a base plate; 22. a partition plate; 23. a side plate; 24. a rear end plate; 241. a through hole; 25. a top cover plate.

Detailed Description

The above-mentioned aspects of the present invention will be further described in detail with reference to the following embodiments. This should not be understood as limiting the scope of the above-described subject matter of the present invention to the following examples only. Various substitutions and alterations can be made according to the ordinary skill in the art and the conventional means without departing from the technical idea of the invention.

Example 1:

this embodiment provides a fine dish 1 of winding of preventing optical fiber winding, as shown in fig. 2 and fig. 3, including left end board 11, a left side around fine section of thick bamboo 12, jump fine board 13, the right side around fine section of thick bamboo 14 and right-hand member board 15, left end board 11, jump fine board 13 and right-hand member board 15 between the interval that is parallel to each other, left end board 11 and jump fine board 13 are connected respectively the left side is around the both ends of fine section of thick bamboo 12, jump fine board 13 with right-hand member board 15 is connected respectively the right side is around the both ends of fine section of thick bamboo 14, separates a left side is around fine section of thick bamboo 12 and the right side is around fine section of thick bamboo 14 jump fine board 13 has the jump fine groove 131 of being convenient for jump fine.

In the routine maintenance process, workers find that the phenomena of disordered winding and disordered jumping of the fibers exist in the equipment cabinet, and the workers can only begin to work after the disordered jumping of the fibers is arranged in a large amount of time for each maintenance; the fiber winding plate 1 capable of preventing optical fiber winding is designed to be capable of arranging messy jumping fibers so that the equipment cabinet connecting optical fibers are neat and orderly, the single fiber winding plate 1 serves as a fiber winding unit, the fiber jumping plate 13 is arranged between the left fiber winding barrel 12 and the right fiber winding barrel 14 and can separate the optical fibers wound on the left fiber winding barrel 12 and the right fiber winding barrel 14, and meanwhile, the fiber jumping plate 13 is provided with the fiber jumping groove 131 for optical fiber crossing, so that the optical fibers wound on the left fiber winding barrel 12 or the right fiber winding barrel 14 can conveniently cross to the other side of the fiber jumping plate 13; in the actual use, can a plurality of around fiber dish 1 uses simultaneously, separate a plurality of optic fibre in the optical cable in order respectively and twine on each winds fiber dish 1, if an optic fibre goes wrong, take out the winding fiber dish 1 of winding this optic fibre, overhaul this optic fibre.

Example 2:

in order to adjust the winding length of the optical fiber conveniently, the embodiment is optimally designed on the basis of embodiment 1, after an overhaul worker overhauls the optical fiber, the overhaul worker holds the fiber winding disc 1 to wind the optical fiber on the fiber winding disc 1, in order to facilitate operation, the fiber winding process generally operates outside a cabinet, and then the fiber winding disc 1 completed by winding the optical fiber is fixed on the cabinet, but a small segment of tail fiber remained after the fiber winding disc 1 is placed in the cabinet is not wound on the fiber winding disc 1, and after a plurality of fiber winding discs 1 are all installed in the cabinet, a plurality of strands of remained small segments of tail fiber still can be interlaced and wound to a small extent, so that the interior of the cabinet looks uncluttered and ordered; therefore, from a practical experience, it is necessary for the worker to adjust the winding length of the optical fiber with a small degree by turning the winding drum around which the optical fiber is wound.

Based on the technical idea of rotating around a fiber drum, the embodiment provides two specific technical schemes:

in the first type, the fiber jumping plate 13 is fixedly connected with the left fiber winding drum 12 and the right fiber winding drum 14 respectively to form a whole, the left fiber winding drum 12 is rotatably connected with the left end plate 11, and the right fiber winding drum 14 is rotatably connected with the right end plate.

With a left side around fine section of thick bamboo 12, jump fine board 13 and the right side around fine section of thick bamboo 14 as a whole, for left end board 11 and right end board 15 rotate, can be with whole when fixed through left end board 11 and right end board 15 around the fine board, rotate the middle by a left side around fine section of thick bamboo 12, jump fine board 13 and the right side around the overall structure that fine section of thick bamboo 14 is constituteed realize the optical fiber winding, conveniently adjust the winding length of optical fiber.

In the second type, the left fiber winding drum 12 is rotatably installed between the left end plate 11 and the fiber jumping plate 13, and the right fiber winding drum 14 is rotatably installed between the fiber jumping plate 13 and the right end plate 15.

Around also mutual rotation between a fine section of thick bamboo 12 of a left side and the fine section of thick bamboo 14 of the right side, when twine an optic fibre separately on a fine section of thick bamboo 12 of a left side and the fine section of thick bamboo 14 of the right side, can conveniently adjust the winding length of each optic fibre, improved the practicality around fine dish 1. With a greater freedom of operation compared to the first category.

The rest of this embodiment is the same as embodiment 1, and thus, the description thereof is omitted.

Example 3:

this embodiment is further improved from embodiment 1 or 2, and both the left winding package 12 and the right winding package 14 are cylinders with a diameter of 6cm or more. The bending radius of the optical fiber wound on the left fiber winding barrel 12 or the right fiber winding barrel 14 can be larger than the minimum bending radius which does not influence the transmission performance of the optical fiber signal, and the optical signal transmission capability of the optical fiber is prevented from being damaged due to overlarge bending curvature.

In any of embodiments 1 to 3, the material for manufacturing the components of the fiber winding disc 1 is not particularly limited, and if the humidity of the position of the fiber winding disc 1 is high, the use of a material such as wood which is easily mildewed is avoided; if the heat dissipation plate is installed on a cabinet needing heat dissipation, the heat dissipation plate can be made of metal materials easy to conduct heat, and the heat dissipation plate plays a role in assisting heat dissipation of the cabinet. However, since the device is mostly used in a cabinet of a machine room, it is usually suggested to use a metal material which is easy to conduct heat, so as to play a role of the heat sink to assist the heat dissipation of the cabinet.

The rest of this embodiment is the same as embodiment 1 or 2, and therefore, the description thereof is omitted.

Example 4:

this embodiment provides a fine ware of winding of anti-optical fiber, as shown in fig. 1-4, including winding fine box 2 and around fine dish 1, around fine dish 1 include left end plate 11, a left side around fine section of thick bamboo 12, jump fine board 13, a right side around fine section of thick bamboo 14 and right end board 15, left end plate 11, jump fine board 13 and right end board 15 between the interval that is parallel to each other, left end plate 11 and jump fine board 13 are connected respectively in a left side around the both ends of fine section of thick bamboo 12, jump fine board 13 with right end board 15 is connected respectively in a right side around the both ends of fine section of thick bamboo 14, separate a left side around fine section of thick bamboo 12 and a right side around fine section of thick bamboo 14 jump fine board 13 has the fine groove 131 of jumping of being convenient for jumping fine. As shown in fig. 4, a plurality of slots are provided in the fiber winding box 2, and the fiber winding disc 1 is located in the slots.

The fiber winding box 2 comprises a bottom plate 21, a rear end plate 24, a top cover plate 25, two side plates 23 and a plurality of partition plates 22, the bottom plate 21 is positioned at the bottom, the rear end plate 24 is positioned at the rear part, and the side plates 23 are respectively positioned at two side parts to jointly form an inner cavity of the fiber winding box 2, the partition plates 22 are arranged in parallel in the inner cavity of the fiber winding box 2 and are divided into a plurality of slots, and the partition plates 22 are fixedly connected to the bottom plate 21.

In order to make the use around fiber dish 1 more convenient, according to the structural design around fiber dish 1 with it supporting around fine box 2 that uses, the two cooperation is used and is constituted the fine ware of winding in this embodiment, wind fine dish 1 and can let the orderly winding of optic fibre tail optical fiber section, jump the fibre, but generally there are many optic fibres in an optical cable, it takes in and prevents to jump fine intertwining to each optic fibre tail, need fix each around fiber dish 1, prevent around the mixed and disorderly distribution of fiber dish 1 in the rack, consequently set up the fiber box 2 that winds that has the slot and take in a plurality of around fiber dish 1 in unison, so that the inside optic fibre of rack is more orderly. This kind of setting can also be alone to each slot serial number for slot serial number and optic fibre serial number one-to-one can find the optic fibre that waits to overhaul that corresponds fast during the operation of being convenient for overhaul, reduce the maintenance seek time, improve maintenance efficiency, also play certain guard action to optic fibre.

The connection relation between the slot and the fiber winding disc 1 can be that the fiber winding disc 1 is only placed in the slot without any limit fixation, or the fiber winding disc 1 is in sliding connection or clamping connection with the inner wall of the slot.

Through holes 241 for passing optical fibers are formed in the positions, corresponding to the slots, of the rear end plate 24. It gets into around fine box 2 in and twines around fine dish 1 to be convenient for jump the fibre and pass through-hole 241 and get into, will jump the fibre again after jumping the fine winding and accomplish and send out and be connected with the optical fiber equipment in the rack through-hole 241, and a pore pair is fine, avoids optic fibre intertwine to cause confusion and damage, improves the efficiency that the maintenance looked for corresponding optic fibre, does benefit to the maintenance operation.

The fiber winding box 2 further comprises a top cover plate 25, and the top cover plate 25 is rotatably connected with the rear end plate 24. Furthermore, the top cover plate 25 and the rear end plate 24 are detachably mounted, so that optical fibers are more conveniently arranged.

The fiber winding box 2 is designed to be 44 × 13 cm in length and 13 × 13 cm in depth, the thickness of the fiber winding box is equivalent to that of a 24-core optical fiber distribution frame, the installation space can be greatly saved, and the space of a screen cabinet is also saved to a certain extent after the fiber winding box is installed on a screen in parallel with the optical fiber distribution frame. The box body upper cover uses the design of detachable guide rail, conveniently arranges the line. 12 square slots are arranged in the fiber winding box 2, and 12 pairs of jumping fibers can be independently wound without mutual interference. The back of the installation position of each square slot is provided with a wire guide groove, and all the jumping fibers are routed from the back of the fiber winding box 2, are not mutually wound and are more tidy and beautiful than the front routing.

It should be noted that the fiber winder may be installed inside the cabinet, or may be installed outside the cabinet. When the optical fiber protective device is arranged in the cabinet, the optical fiber protective device has a better optical fiber protective effect and obtains a more neat and ordered visual impression; however, the space in the cabinet is limited, and at the moment, the fiber winding device is installed outside the cabinet, so that more space can be made for the inside of the cabinet, and the installation of other equipment is facilitated and the heat dissipation requirement is met. Therefore, the installation position of the fiber winder can be selected adaptively according to the capacity and the environment of the field cabinet.

In another embodiment, based on the concept of fixing the fiber winding disc 1, the fiber winding box 2 can be designed in a simplified manner, only the bottom plate 21 and the partition plates 22 fixed on the bottom plate 21 are reserved to form a fiber arrangement plate as shown in fig. 5, and the slots formed between adjacent partition plates 22 can also play a role of fixing the fiber winding disc 1, and the device can be used when the internal space of the cabinet is small or more heat dissipation space needs to be made free, so that the space occupied by redundant components is avoided, but the corresponding protection effect on the optical fibers can be weakened.

The above, only be the preferred embodiment of the present invention, it is not right the utility model discloses do the restriction in any form, all be according to the utility model discloses a technical entity is any simple modification, the equivalent change of doing to above embodiment, all fall into within the protection scope of the utility model.

Claims (9)

1. The utility model provides a prevent winding of optic fibre is fine dish, its characterized in that: wind fine dish (1) and include left end plate (11), a left side around fine section of thick bamboo (12), jump fine board (13), the right side around fine section of thick bamboo (14) and right-hand member board (15), be parallel to each other interval between left end plate (11), jump fine board (13) and right-hand member board (15), left end plate (11) and jump fine board (13) are connected respectively a left side is around the both ends of fine section of thick bamboo (12), jump fine board (13) with right-hand member board (15) are connected respectively the right side is around the both ends of fine section of thick bamboo (14), separate around fine section of thick bamboo (12) and the right side on a left side jump fine board (13) have the fine groove (131) of jumping of fine skipping of being convenient for.

2. The fiber winding disc for preventing optical fiber from being wound, which is claimed in claim 1, wherein: jump fine board (13) respectively with a left side is around fine section of thick bamboo (12), the right side is around fine section of thick bamboo (14) board fixed connection and is a whole, a left side around fine section of thick bamboo (12) with left end plate (11) rotate to be connected, a right side around fine section of thick bamboo (14) with right end plate (15) rotate to be connected.

3. The fiber winding disc for preventing optical fiber from being wound, which is claimed in claim 1, wherein: the left fiber winding drum (12) is rotatably installed between the left end plate (11) and the fiber jumping plate (13), and the right fiber winding drum (14) is rotatably installed between the fiber jumping plate (13) and the right end plate (15).

4. A fiber-winding reel for preventing optical fiber from being wound according to any one of claims 1 to 3, wherein: the left fiber winding barrel (12) and the right fiber winding barrel (14) are cylinders with the diameter larger than or equal to 6 cm.

5. The utility model provides a prevent winding fine ware of optic fibre which characterized in that: the optical fiber winding prevention device comprises a fiber winding box (2) and the optical fiber winding prevention disc as claimed in any one of claims 1 to 4, wherein a plurality of slots are formed in the fiber winding box (2), and the fiber winding disc (1) is located in the slots.

6. The fiber winder for preventing the optical fiber from being wound according to claim 5, wherein: wind fine box (2) and include bottom plate (21), rear end plate (24), lamina tecti (25), two curb plates (23) and a plurality of baffle (22), be located the bottom plate (21), be located the rear portion rear end plate (24) with be located two lateral parts respectively curb plate (23) form jointly wind the inner chamber of fine box (2), a plurality of baffle (22) parallel arrangement is in wind in the inner chamber of fine box (2) and separate it for a plurality of slots.

7. The fiber winder for preventing the optical fiber from being wound according to claim 6, wherein: the clapboard (22) is fixedly connected to the bottom plate (21).

8. The fiber winder for preventing the optical fiber from being wound according to claim 6, wherein: and through holes (241) for passing through optical fibers are formed in the positions, corresponding to the slots, of the rear end plate (24).

9. The fiber winder for preventing the optical fiber from being wound according to claim 6, wherein: the fiber winding box (2) further comprises a top cover plate (25), and the top cover plate (25) is rotatably connected with the rear end plate (24).

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