KR100320380B1 - Ultra-Multicore Optical Cables with Foldable Grooves_ - Google Patents

Abstract

The present invention relates to a super multi-core optical cable having a foldable groove, and an object thereof is to provide a predetermined free space through which the optical fiber ribbon can be constantly flow, thereby preventing the external force partially concentrated on one surface of the optical fiber ribbon from being applied. To reduce the gap between the groove and the groove to increase the optical fiber density.

According to the present invention, a pair of notched grooves spaced at regular intervals in a central portion of the upper surface of the flexible member having a predetermined width are formed along the longitudinal direction so as to fold both sides around the notched grooves to stack a plurality of optical fiber ribbons therein. A plurality of foldable grooves spirally installed in close contact with each other on the outer circumferential surface of the center tensile line or the outer circumferential surface of the multi-slot rod, and a plurality of optical fiber ribbons are stacked and inserted between the foldable grooves adjacent to each other. It has a feature including a film groove.

When the present invention is applied to the above, the multi-core optical cable having the foldable groove is formed in the form of a flat plate is wound in a winding drum of the same size, it is possible to form a longer length of the optical cable, A very thin film groove is inserted between adjacent fold grooves to increase the optical fiber density, and a predetermined free space is formed between both sides of the fiber ribbon inserted into the inside and the inner wall surface of the fold groove to form a predetermined free space. The side pressure concentrated on the part is prevented from being applied.

Description

Ultra-high fiber optic cable with foldable groove

The present invention relates to a foldable groove and an ultra multi-core optical cable having the same, and more particularly, to form a pair of notch grooves in the center of the band-shaped flexible member to fold both side surfaces of the member around the notch grooves. The present invention relates to a super multi-core optical cable having a foldable groove for inserting a plurality of optical fiber ribbons to be stacked and a foldable groove for improving optical fiber density by installing a film groove between adjacent folds.

In general, the demand for optical cables is gradually increasing due to the spread of subscriber networks related to various communication services such as LAN, LOCAL AREA NETWORK, bidirectional communication, and video call.

There are various types of such optical fiber cables, depending on the use, and are largely divided into a cable installed outdoors, a cable installed indoors and a cable for entry installed between the outdoors and indoors.

Among these optical cables, outdoor cables may be installed for several tens of kilometers or thousands of kilometers, and when they are buried underground, they are dug into the ground and buried in soil. When an abnormality occurs in a track, it is very difficult to check and repair and replace cables. There is a very difficult disadvantage.

Therefore, to compensate for these disadvantages, a communication tunnel is artificially installed underground and a cable is installed in the tunnel (communication port).

In this case, the maintenance and replacement of the cable is easy, but there is a problem that the overall construction cost is enormous.

Therefore, in recent years, the optical cable construction method is mainly used to install a hollow pipe (Pipe) having a constant diameter in the ground and then insert the cable into the pipe.

The pipelines are installed between manholes and manholes at regular intervals because they are buried in lengths of hundreds to thousands of kilometers.

In this case, the rope is inserted into the pipeline, and the pipeline is buried underground, and the cable is installed in the pipeline by pulling and connecting the optical cable to the end of the rope.

In addition, in the case of the incoming optical cable, since the cable from the outdoor cable to the terminal box inside the building must be installed, a predetermined pipeline is formed through the wall of the building and drawn into the building.

1 is a cross-sectional view of a conventional ultra-core optical cable.

Referring to this, in the multi slot optical cable, a plurality of grooves 52 having a predetermined depth are spirally formed along the outer circumferential surface of the multi slot rod 50, and a plurality of optical fiber ribbons 40 are formed in the grooves 52. It is inserted to be stacked, and the central tension line 51 made of steel wire or high strength synthetic fiber is inserted on the central axis is configured to correspond to the external force.

In addition, a predetermined waterproof layer 53 is formed on the outer circumferential surface of the multi-slot rod 50, and a plurality of U grooves 60 are disposed on the outer surface of the multi-slot rod 50 so as to be in close contact with each other, and are spirally installed along the longitudinal direction. do.

The outer circumferential surface of the U groove 60 is a waterproof layer 54 coated with a waterproof tape to prevent moisture penetration, and the aluminum or steel to mitigate moisture penetration and external impact force on the outer circumferential surface of the waterproof layer 54. A metal coating layer 55 is formed, and a polystyrene (PE) coating layer 56 is formed on the outermost layer.

However, since the groove 52 or the U groove 60 of the multi-slot rod does not have enough space for the optical fiber ribbon 40 inserted therein to flow, the optical fiber ribbon 40 is in contact with the inner wall surface thereof. Intensive side pressure is applied to the phase, and the side pressure is transmitted to the optical core inside the optical fiber ribbon 40, which causes a problem that the optical signal is leaked.

In addition, since the U groove 60 is manufactured with both side walls faced up and wound on a winding drum, it is difficult to wind a large amount, so that the winding drum is too long to form a long cable of several kilometers or several tens of kilometers. There is a growing problem.

Since the U groove 60 is formed to have sufficient strength and thickness to correspond to an external force, the optical fiber density of the optical cable is reduced by the thicknesses of both side wall surfaces which are connected to each other between the adjacent U grooves 60.

The main object of the present invention is to prevent the intensive external force from acting on one side of the optical fiber ribbon by forming a predetermined free space in which the optical fiber ribbon inserted to be stacked therein can be constantly flown, and thus the optical signal leakage It is to provide a multi-core optical cable having a foldable groove to reduce the number.

Another object of the present invention is to provide a super multi-core optical cable having a foldable groove to increase the optical fiber density by minimizing the space between the adjacent grooves.

It is still another object of the present invention to provide an ultra multi-core optical cable having a foldable groove which allows a longer optical cable to be formed by grooves wound on winding drums of the same size.

1 is a cross-sectional view of a conventional multi-core optical cable,

2 is a cross-sectional view of a super multi-core optical cable having a foldable groove according to the present invention,

3 is an enlarged cross-sectional view of the folding groove constituting the present invention.

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

10: folding groove 11: notch groove

13: both sides 20: film groove

23: both side walls 31: the center tensile

40: optical fiber ribbon

The present invention is a super multi-core optical cable provided with a central tension line, a pair of notched grooves spaced at regular intervals in the central portion of the upper surface of the flexible member having a predetermined width is formed along the longitudinal direction to both sides around the notch grooves Folded up to insert a plurality of optical fiber ribbons stacked therein, a plurality of folding grooves spirally installed in close contact with each other on the outer peripheral surface of the center tension line, or the outer peripheral surface of the multi-slot rod, and inserted into the plurality of optical fiber ribbons stacked therein And a plurality of film-like grooves installed to be positioned between the adjacent folding grooves.

In the present invention, the foldable groove and the film groove have a feature installed in a multi-layer structure on the outer peripheral surface of the center tension line.

Hereinafter, with reference to the accompanying drawings for a preferred embodiment of a multi-core optical cable having a foldable groove according to the present invention will be described in detail.

2 is a cross-sectional view of a super multi-core optical cable having a foldable groove according to the present invention, Figure 3 is an enlarged cross-sectional view of the foldable groove according to the present invention.

Referring to this, the multi-core optical cable is disposed spirally along the longitudinal direction in a state where the plurality of folding grooves 10 are placed in close contact with each other on the circumferential surface of the center tension line 31 or the multi-slot rod, adjacent to each other The film-shaped groove 20 is positioned between the folded grooves 10 to increase the optical fiber density, and a predetermined coating layer is formed on the circumferential surface of the plurality of folding grooves 10.

The foldable groove 10 is formed by a pair of notched grooves 11 spaced a predetermined distance from the center of the upper surface of the flexible member having a predetermined width along the longitudinal direction of the member, the notched groove 11 is 75 It is formed at an angle of.

Therefore, when the foldable groove 10 is folded up on both sides 13 around the center notch groove 11, a space is formed in which a plurality of optical fiber ribbons 40 are stacked.

Since the film groove 20 is formed on both side walls 23 in a very thin film form, the gap between the groove and the groove into which the optical fiber ribbon 40 is inserted is minimized.

The coating layer includes a waterproof layer 34 coated with a waterproof tape to prevent moisture penetration, and a metal coating layer 35 made of aluminum or steel to mitigate moisture penetration and external impact on the outer circumferential surface of the waterproof layer 34. A polystyrene (PE) coating layer 36 is formed on the outermost layer.

Looking at the working example of the present invention by the above configuration as follows.

The ultra-multi-core optical cable is provided with a plurality of foldable grooves 10 on the peripheral surface of the center tensile line 21, inserting a plurality of optical fiber ribbons 40 therein, the film between the foldable grooves 10 The groove 20 is inserted into the groove.

Therefore, the optical cable maintains its appearance by both side wall surfaces 13 of the foldable groove 10 and corresponds to external force.

At this time, the foldable groove 10 folds up both side surfaces 13 of the flexible member about the notch groove 11 in the center to form a space into which the optical fiber ribbon 40 is inserted, so that both side surfaces 13 have their own sides. Due to the elasticity, it has a property of unfolding outward at a certain angle.

Therefore, a predetermined free space is formed on both sides of the optical fiber ribbon 40 stacked and inserted in the folding groove 10, and the optical fiber ribbon 40 flows relatively freely in the folding groove 10, so that the folding groove ( The side pressure concentrated at any part of the optical fiber ribbon 40 in contact with the inner wall surface of 10) is prevented from being applied.

In addition, the foldable groove 10 is formed by a pair of notched grooves 11 are formed in the flat member of the flat form, the amount of the wound in the winding drum of the same size is increased, forming a longer length of the optical cable can do.

Since the film grooves 20 positioned between the folding grooves 10 have both side walls 23 formed very thinly, the gap between the grooves and the grooves into which the optical fiber ribbon 40 is inserted is minimized to reduce the optical fiber density of the optical cable. Raised.

According to the experimental results, it was found that the super multi-core optical cable having the foldable groove has an optical fiber density of 3680 cores within a diameter of 41 mm, so that the optical fiber density is very high.

According to the present invention, the ultra multi-fiber optical cable having the foldable groove has a predetermined free space in which the fiber ribbon can be constantly flowed between both side surfaces of the fiber ribbon inserted into the inside and the inner wall surface of the foldable groove. And the side pressure concentrated on any part of the optical fiber ribbon is prevented.

In addition, between the grooves adjacent to each other is inserted into the film grooves of the very thin wall surface on both sides is to minimize the gap between the groove and the groove in which the optical fiber ribbon is installed to increase the optical fiber density of the optical cable.

In addition, the multi-core optical cable having the foldable groove is formed in the form of a flat plate, so that the amount of the wound around the winding drum of the same size is increased, it is possible to form a long length optical cable having a longer length.

Claims (2)

In the ultra multi-core optical cable provided with a central tensile line 31, A pair of notched grooves 11 spaced at regular intervals in a central portion of the upper surface of the flexible member having a predetermined width are formed along the longitudinal direction to fold both sides around the notched grooves 11 and to form a plurality of optical fiber ribbons therein. A plurality of folding grooves 10 spirally installed to be in close contact with each other on the outer circumferential surface of the central tension line 31 or on the outer circumferential surface of the multi-slot rod 40 so as to be inserted in a stack; Ultra-fiber optical cable having a foldable groove, characterized in that it comprises a plurality of film-type grooves 20 are installed to be placed between the foldable groove 10 adjacent to each other is inserted into the plurality of optical fiber ribbons 40 stacked therein . The method of claim 1, The foldable groove 10 and the film-type groove 20 is a super multi-core optical cable having a foldable groove, characterized in that installed in a multi-layer structure on the outer peripheral surface of the center tension line (31).