KR20000047104A - Foldable unit and super multi-fiber optical cable having the same - Google Patents

Abstract

PURPOSE: An optical fiber is provided to minimize spacing between grooves with optical fiber ribbons inserted therein and to increase optical fiber density of the optical cable by inserting the optical fiber ribbons into the grooves made of the folded films. CONSTITUTION: Foldable units(10) are integrally formed with side wall surfaces(11) and a lower surface(13). In the foldable units(10), a space for receiving a pair of film-typed grooves(20) is provided. The film-type grooves(20) are closely inserted into the space. A bottom face(14) of the foldable unit(10) is formed on the peripheral surfaces of the multi-slot rod(40). A plurality of grooves(42) having a predetermined depth are formed helically along peripheral surface of multi-slot rod(40). A plurality of optical fiber ribbons(30) are inserted and deposited into the grooves(42). A central tensile wire(41) made of a steel wire or high strength synthetic fiber is inserted into a central portion of the rod(40).

Description

Fold Unit and Ultra-Central Optical Cable With It

The present invention relates to a fold unit and a super multi-fiber optical cable having the same, and more particularly, a fold unit capable of inserting a plurality of film grooves into which a plurality of optical fiber ribbons are stacked, and a super having such a fold unit. Relates to a multi-core optical cable.

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.

Therefore, in order to install the optical cable into a narrow space pipe, the diameter of the optical cable must be made smaller and lighter.

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 42 having a predetermined depth are spirally formed along the outer circumferential surface of the multi slot rod 40, and a plurality of optical fiber ribbons 30 are formed in the grooves 42. It is inserted to be stacked, and the central tensile line 41 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 43 is formed on the outer circumferential surface of the multi-slot rod 40, and a plurality of U grooves 50 are disposed on the outer surface of the multi-slot rod 40 to be in close contact with each other, and are installed spirally along the length direction. do.

The outer circumferential surface of the U groove 50 is a waterproof layer 44 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 44. The metal coating layer 45 is formed, and a polystyrene (PE) coating layer 46 is formed on the outermost layer.

At this time, since the grooves 42 and the U grooves 50 of the multi-slot core should be formed with a predetermined width and depth so that a plurality of optical fiber ribbons 30 can be stacked to be stacked, the grooves 42 and the grooves adjacent to each other are formed. The space between the 42 or the U groove 50 and the U groove 50 essentially requires a dead zone, and this space is a major factor in reducing the optical fiber density of the ultra-concentric optical cable.

The main object of the present invention is to install a plurality of film grooves having a very thin wall on both sides of the fold unit in the open fold unit, and inserting a plurality of optical fiber ribbons into the film grooves so that the optical fiber ribbons are inserted. It is to provide a fold unit and a super multi-core optical cable having the same, which minimizes the gap between the groove and the groove, thereby significantly increasing the optical fiber density of the optical cable.

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

2 is a perspective view illustrating a state in which an optical fiber ribbon is installed in a fold unit according to the present invention;

3 is a cross-sectional view showing a state in which an optical fiber ribbon is installed in the fold unit according to the present invention;

4 is a cross-sectional view of an ultra multi-core optical cable having a fold unit according to the present invention.

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

10: Fold unit 11: Both side wall

13: bottom surface 20: film groove

21: both side wall 30: optical fiber ribbon

40: multislot rod

The fold unit according to the present invention has a feature in which both side wall surfaces and bottom surfaces are integrally formed so that a plurality of film grooves are provided in close contact with each other.

The ultra multi-core optical cable having a fold unit according to the present invention is a multi-core optical cable having a multi-slot rod, both side walls and the bottom surface is formed integrally to provide an open space portion, the top of the slot rod is formed on each other It is characterized in that it comprises a plurality of fold units spirally arranged to be in close contact with each other, and a plurality of film-like grooves are installed in the space portion of the fold unit, the plurality of optical fiber ribbons are inserted in a stack.

Hereinafter, preferred embodiments of the fold unit according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing a state in which the optical fiber ribbon is installed in the fold unit according to the present invention.

Referring to this, the fold unit 10 is provided with a space portion in which both side wall surfaces 11 and the bottom surface 13 are integrally formed so that the plurality of film grooves 20 are in close contact with each other.

At this time, the fold unit 10 is made of a polyester resin having a sufficient strength to correspond to the external force.

In addition, the film groove 20 is formed in the form of a very thin side wall 21 on both sides so as to minimize the gap between the groove and the groove.

The working example of the fold unit according to the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing an optical fiber ribbon installed in the fold unit according to the present invention.

Referring to this, the fold unit 10 is provided with a space portion in which a plurality of film grooves 20 are installed in close contact with each other, and the film grooves installed in the space portion of the fold unit 10 ( Since the side walls 21 are made in a very thin form, the gap between the groove and the groove into which the plurality of optical fiber ribbons 30 are stacked is minimized.

At this time, the fold unit 10 is made of a relatively large material (young`s modulus) is able to withstand the external force acting sufficiently.

Hereinafter, a preferred embodiment of an ultra multi-core optical cable having a fold unit according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view of an ultra multi-core optical cable having a fold unit according to the present invention.

Referring to this, in the multi-core optical cable, a plurality of grooves 42 having a predetermined depth are spirally formed along the outer circumferential surface of the multi-slot rod 40, and a plurality of optical fiber ribbons 30 are formed in the grooves 42. It is inserted to be stacked, and a central tensile line 41 made of steel wire or high strength synthetic fiber is inserted on the central axis so as to correspond to an external force.

In addition, a predetermined waterproof layer 43 is formed on an outer circumferential surface of the multi-slot rod 40, and a plurality of fold units 10 are arranged on the outer surface of the waterproof layer 43 so as to be in close contact with each other, and are arranged in a spiral along the length direction. The inside of the fold unit 10 has a pair of film-like grooves 20 into which a plurality of optical fiber ribbons 30 are stacked.

At this time, the fold unit 10 is made of polyethylene-based synthetic resin of a relatively large Young's modulus having a sufficient strength to correspond to the external force, the film groove 20 is the minimum groove between the groove and the groove Both side walls 21 are formed very thin so that they can be made.

An outer layer of the optical cable is formed on an outer circumferential surface of the fold unit 10. The outer layer has a waterproof layer 44 coated with a waterproof tape to prevent moisture penetration therein, and an external impact force on the outer circumferential surface of the waterproof layer 44. The metal coating layer 45 made of aluminum or steel is formed so as to correspond to the shape, and the polyethylene (PE) coating layer 46 is formed on the outermost layer.

Referring to the operation of the ultra-multi-core optical cable having a fold unit according to the present invention by the above configuration in detail as follows.

The ultra-concentric optical cable has a pair of film grooves 20 installed in close contact with each other in a fold unit 10 arranged in a spiral manner, and the pair of film grooves 20 have both side wall surfaces 21. ) Is formed very thin, so that the gap between the groove and the groove into which the plurality of optical fiber ribbons 30 are inserted to be stacked is minimized.

In addition, both side walls of the fold unit 10 is made of a relatively large material of the Young's modulus can sufficiently withstand the external force acting.

According to the present invention, a pair of film grooves are installed in a plurality of fold units arranged on an outer circumferential surface of a multislot rod, and a plurality of film grooves are provided in the fold unit and the ultra-core fiber cable having the same. Since the optical fiber ribbons are stacked, the gap between the grooves into which the optical fiber ribbons are inserted is minimized, and the optical fiber density of the optical cable is significantly increased.

Claims (2)

Both side wall surface (11) and the bottom surface (13) is formed integrally with a fold unit, characterized in that a space portion is provided in which a plurality of film grooves 20 are in close contact with each other is provided. In a super multi-core optical cable having a multi-slot rod 40, Both side wall surfaces 11 and bottom surface 13 are integrally formed to provide a space having an open top, and a plurality of fold units 10 spirally arranged to be in close contact with each other on the outer circumferential surface of the multi-slot rod 40. ; It is installed in the space portion of the fold unit 10, the inside of the ultra-multi core having a fold unit, characterized in that it comprises a plurality of film grooves 20 are inserted to be stacked in a plurality of optical fiber ribbon 30 Optical cable.