KR200184180Y1 - Slot-typed optical cable for guiding multi-core optical fiber - Google Patents

Abstract

The present invention relates to a slot for use in the manufacture of a slot-type optical cable of a forged length, an object of the present invention is to improve the structure of the slot can be placed stably positioned the optical fiber ribbon inserted in the slot when manufacturing the slot-type optical cable The present invention provides an improved slotted optical cable that can reduce friction between ribbons.

In the improved slotted optical cable according to the present invention, a plurality of predetermined recesses 22 are formed in the longitudinal direction of the slots on the side wall of the slot 20 of the optical cable, and the optical recesses 22 have a plurality of optical fibers. Sliding ribbons 10 are respectively inserted. Therefore, the optical fiber ribbon 10 is separated and inserted by the partition walls 23 formed at regular intervals between the seating grooves 22.

Description

Slot type optical cable for guiding ribbon multi-core fiber

The present invention relates to a slot for guiding optical fibers when cabling a ribbon multi-core optical cable, and more particularly, to improve the frictional stress due to torsional stress and tension by arranging the ribbon optical fibers inserted into the slots apart from each other. It relates to a forged slot type optical cable.

In general, the slot type optical cable has a structure in which a groove is formed at an end of a slot inserted into the cable and the core wire of the optical fiber passes through the groove, and the slot type optical cable has a strand type slot that tightly connects the core wire. By storing the optical fiber in the inside, a cable structure for accommodating up to several hundred seams has been put into practical use.

In addition, the slot-type cable is configured in various ways depending on the cable clustering method and the conditions of use, but there are an internal tension line for arranging the center tensile line in the center of the cable, a method for distributing in the cable, and an external tension line embedded in the outer shell.

In the aforementioned conventional slotted optical cable, as shown in FIG. 1A, the slot includes two or more grooves 21 to be symmetrical with each other on the circumferential surface, and the cable is damaged by being pulled by the pulling force when laid in the center. The tension line 40 for preventing a thing is provided.

In the groove 21, an optical fiber ribbon composed of a plurality of optical fibers is inserted in a stack.

On the other hand, since a plurality of optical fiber ribbons inserted into the grooves 21 are stacked and inserted, frictional force may occur between the optical fiber ribbons.

If the friction force between the optical fibers is not solved, there is a problem that the loss of the ribbon increases due to the friction between the ribbons when the optical fibers are bent in the optical cable manufacturing process.

Therefore, a powder called lubricating oil or talc powder may be interposed between the stacked ribbons in order to reduce the friction force generated between the optical fiber ribbons.

However, as shown in FIG. 1B, in the manufacturing process of the slotted optical cable in the conventional slot structure as described above, the optical fiber ribbon 10 often rotates and twists inside the groove 21 to generate the optical fiber. There was a problem such that the loss value of is greatly increased.

The above problem occurs because the optical fiber ribbon 10 is rotated and inserted in the slot structure in the process of inserting the optical fiber ribbon 10 into the stranded slot 20 during the manufacture of the optical fiber.

In addition, in order to reduce the friction between the optical fiber ribbon 10 is inserted into the groove 21, it is necessary to intervene lubricating oil or talc 30 between the ribbon and the ribbon to be stacked and inserted into the groove (21) after the talc blown out of the groove (21) There was a hassle to clean.

Further, although the lubricating oil or talc 30 does not completely solve the friction force between the optical fibers, the lubricating oil or the talc 30 may be formed between the optical fiber ribbons 10 when the lubricating oil or talc 30 is used. There is a problem that can not achieve the intended purpose because it is not uniformly distributed.

The present invention is devised to solve the above problems when manufacturing a ribbon type optical cable of a forging shop.

An object of the present invention is to improve the structure of the grooves to provide a slot for the stress-friction-resistant ribbon that can be stably positioned the optical fiber ribbon inserted in the slot when manufacturing the slot-type optical cable and also to reduce the friction force between the ribbon .

1A is a cross-sectional view illustrating a state in which an optical fiber ribbon is inserted into a conventional slot.

Figure 1b is a cross-sectional view showing a state in which the optical fiber ribbon inserted in the manufacture of the optical cable in the conventional slot is rotated in the slot.

Figure 2 is a cross-sectional view showing the structure of the forging slot-type optical cable for guiding the ribbon multi-core optical fiber according to the present invention.

3 is a perspective view illustrating a state in which an optical fiber ribbon is inserted into a forging slot type optical cable for guiding a ribbon-type multicore optical fiber according to the present invention.

*** Explanation of symbols for main parts of drawing ***

10: fiber optic ribbon 20: slot

21: groove 22: seating groove

23: bulkhead 30: talc

40: tensile ship

The configuration of the slot for stress and friction prevention ribbon according to the present invention is achieved by forming a plurality of seating grooves on both side walls of the grooves formed at the ends of the slots at predetermined intervals so that a plurality of optical fiber ribbons are respectively inserted into the seating grooves. Can be.

The present invention configured as described above forms one or more mounting grooves into which optical fiber ribbons are inserted into the grooves formed on the grooves, and by placing the optical fiber ribbons therein independently, one or more optical fiber ribbons inserted by the partition walls are separated from each other. It is to prevent friction between fiber ribbons.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

The present invention is applicable to all slot type optical cables manufactured by inserting multi-core ribbons into H type, 2 grooves, 4 grooves, 5 grooves, etc., but for the sake of clarity, the optical cable having the H type slots will be described.

2 is a cross-sectional view showing the structure of the stress-friction-resistant ribbon slot according to the present invention, Figure 3 is a perspective view showing a state where the multi-core optical fiber ribbon is inserted into the stress-friction-resistant ribbon slot according to the present invention. .

According to FIGS. 2 and 3, grooves 21 for inserting the multi-core fiber ribbon 10 are vertically formed at one end of the optical cable inner slot 20. In addition, a plurality of predetermined seating grooves 22 are disposed on the inner wall of the groove 21, and each seating groove 22 is separated by a partition 23 on the inner wall of the groove 21.

Accordingly, the slotted multi-core optical fiber ribbon 10 is inserted into the seating groove 22 by sliding, and is separately inserted into the seating grooves 22 separated by the partition wall 23.

The seating groove 22 is configured to have a width slightly larger than that of the ribbon optical fiber so that the ribbon inserted into the seating groove 22 is not inserted into another neighboring seating groove 22.

The groove 21 as described above is generally manufactured using a polyethylene (PE) material having good manufacturability in the extrusion manufacturing process, which is a method for manufacturing the slot 20, the number of the seating grooves 22 is ribbon Depending on the size and the critical strength of the material determined in the slot manufacturing method can be adjusted in a number of ways.

Hereinafter will be described with respect to the working example of the present invention configured as described above.

As described above, a plurality of ribbons 10 separately inserted into the seating grooves 22 are inserted into the fiber optic ribbons 10 when the optical cable is manufactured by the seating grooves 22 having narrow upper and lower widths. It is inserted stably even at.

And each optical fiber ribbon 10 is separated by the partition wall 23 so that the friction between the ribbons do not occur.

As described above, the present invention can prevent the ribbon from being twisted by the torsional stress inherent in the ribbon itself because the ribbons are independently disposed in the seating grooves 22 of the grooves 21 when cabling the optical cable.

That is, the ribbon can be prevented from being twisted by the partition 23, and the ribbons are arranged in the slots so as to be spaced apart by the partition.

Therefore, since the friction between the optical fiber ribbons 10 is not generated by each partition 23, it is not necessary to use lubricant or talc 30 separately, and the lubricant or talc 30 does not need to be removed separately. There is an effect that the manufacturing becomes easier.

Claims (1)

In the slot-type optical cable comprising a groove at the end of the slot to insert the optical fiber bone in the groove, at least one seating groove spaced at regular intervals by the partition wall 23 on both inner walls of the groove (21) (22) and a slot type optical cable for guiding a ribbon-type multi-core optical fiber, characterized in that composed of a plurality of optical fiber ribbons (10) inserted into each of the seating grooves (22).