KR20030041679A - Optical fiber cable containing loose tube - Google Patents

Abstract

PURPOSE: A loose tube type optical cable is provided to improve the strength and flexibility of loose tubes by forming the loose tubes with polyehylene resin. The loose tubes are not retracted after the optical cables are formed, thereby improving the mechanical and physical characteristics of the optical cables. CONSTITUTION: A loose tube type optical cable includes a central member(100), at least two or more loose tubes(106) including at least one or more optical fiber cores(104) inside and wound on the central member with a predetermined distance in an alternating hand helix structure, an outer skin(110) formed of plastic material for surrounding the loose tubes, and a waterproof element(108) formed in a space between the loose tubes and the outer skin and between a ribbon tube and the central member. The loose tubes are formed of polyethylene resin.

Description

Loose tube type optical cable {OPTICAL FIBER CABLE CONTAINING LOOSE TUBE}

The present invention relates to a loose tube type optical cable, and in particular, by producing a loose tube of the cable using polyethylene resin instead of the conventional poly propylene or polybutylene terephthalate, the strength of the loose tube And it is possible to solve the problem of post-shrinkage occurs when using the polypropylene while improving the flexibility, and relates to a loose tube type optical cable having desirable physical and mechanical properties.

Optical cables are widely used to transmit electric and electronic signals of televisions, computers, telephones, and the like, and are particularly popular because they can transmit vast amounts of information faster than conventional coaxial cables. However, since the optical fiber used in the optical cable is a fiber material having a fine diameter and is easily damaged by an external impact, in the optical cable as described above, the optical fiber should be protected from such an external impact. In the process of connecting the optical cable, or the shape of the cable is often to be changed, such as the cable to be buried, the terrain to be installed, etc., the cable itself should have elasticity, flexibility and the like.

Therefore, such an optical cable has elasticity and flexibility so as to protect the optical fiber mounted therein, at the same time, the shape thereof is relatively freely bent, and to restore the original shape as needed again. To be manufactured from a material and a structure that can be, according to this need, a conventional optical cable having various materials and structures has been proposed.

Hereinafter, a conventional loose optical cable structure and material will be described in detail with reference to the accompanying drawings.

1 is a view showing the structure of a conventional optical cable.

As can be seen in FIG. 1, a conventional optical cable has a central member 10, two or more rouges wound with an alternating hand helix that is oriented at some distance around the center member. It consists of a tube 16, one or more optical fiber core wires 14 loosely received inside the loose tube and a plastic sheath 20 surrounding the loose tube, in order to protect the optical fiber from moisture, The waterproof tube 24 is filled in the inside of the loose tube, and the waterproof member 22 is also formed in all the spaces between the loose tube and the center member and the space between the loose tube and the shell.

By the way, in the conventional loose tube type optical cable, in the manufacture of the loose tube, a material such as polypropylene or polybutylene terephthalate has been mainly used. First, the polybutylene terephthalate has a high strength, so that the tube Although the optical fiber mounted therein may be protected from external impact, flexibility and elasticity may be deteriorated, and thus, when the loose tube is manufactured using the material, the flexibility and elasticity of the optical cable including the same may be inferior. It is true.

In addition, even when looking at the case of manufacturing the loose tube using a polypropylene resin, the polypropylene has a good flexibility and elasticity, there is no problem that the flexibility is lowered as in the case of manufacturing with polybutylene terephthalate However, since the resin crystallization rate is slow, post-shrinkage may occur, when the loose tube included in the optical cable is made of such polypropylene, the loose tube is contracted after the product is finished, so that the mechanical, optical, The problem of deteriorating physical properties may occur.

Due to the problems of the prior art, it is made of a material and a structure having sufficient strength and flexibility and elasticity, while not causing problems of post-shrinkage, so as to protect the optical fiber core wires mounted in the loose tube. There is an urgent need for a loose tube type optical cable having excellent mechanical and physical properties.

Accordingly, an object of the present invention, in order to solve the problems of the conventional loose tube type optical cable as described above, instead of the conventional polypropylene or polybutylene terephthalate resin, by manufacturing a loose tube using a polyethylene (polyethylene) resin The present invention provides a loose tube type optical cable having sufficient strength and flexibility, high elasticity, and no post-shrinkage problem, and excellent mechanical and physical properties thereof.

1 is a view showing the structure of a conventional loose tube optical cable,

2 is a view showing an example of a loose tube optical cable according to the present invention.

Explanation of symbols on the main parts of the drawings

100: center member 102: waterproof material

104: optical fiber 106: loose tube (polyethylene)

108: waterproof member 110: outer shell made of plastic

112: plastic interposition

In order to achieve the above object, the present invention is a central member;

At least two loose tubes containing at least one optical fiber therein and wound in an alternating hand helix at a predetermined distance around the center member;

An outer shell made of a plastic material surrounding the loose tube; And

In the loose tube optical cable consisting of a waterproof member formed in the space between the loose tube and the outer shell and between the ribbon tube and the center member, the loose tube material is provided with a loose tube optical fiber, characterized in that made of polyethylene resin. do.

That is, the loose tube type optical cable according to the present invention includes a loose tube made of polyethylene resin, and the polyethylene resin has a high strength, so that an external impact is applied to the optical fiber core wire mounted inside the loose tube. It can be sufficiently protected from, and unlike the conventionally used polypropylene resin, since the crystallization rate is fast and does not cause the problem of post-shrinkage, according to the present invention, by producing a loose tube with such a polyethylene resin, the conventional loose tube type It is possible to provide a loose tube type optical cable having excellent physical and mechanical properties while solving the problems occurring in the optical cable.

In the loose tube type optical cable of the present invention as described above, as polyethylene resin used as a material of the loose tube, general polyethylene which has been used conventionally can be used. However, the existing polyethylene resin has a flexural modulus compared to polypropylene. In order to solve this problem, it is preferable to use a polyethylene resin with improved flexural modulus, more specifically, the density of the polymer is 0.945-0.970 g / cc, and the flexural modulus is 1000 MPa at 20 ° C. As mentioned above, the melt index uses the polyethylene resin in the range of 0.04-0.10g / 10min.

By using a polyethylene resin having the above characteristics, when manufacturing a loose tube using the existing polyethylene resin, the bending elastic modulus of the loose tube is lowered, thereby solving the problem that the flexibility and elasticity of the optical cable itself is lowered Can be.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail with respect to the configuration of the present invention. However, the scope of the present invention is not limited thereto, but is presented as an example.

2 is a view showing an example of a loose tube optical cable according to the present invention.

As described above, the loose tube-shaped optical cable according to the present invention includes a central member 100, at least one optical fiber core wire 104 therein, and the direction of the center member at a predetermined distance around the center member. Waterproof material 108 formed in the space between the at least two loose tubes 106 wound in a changing spiral structure, the shell 110 surrounding the loose tube and the space between the loose tube and the shell and between the ribbon tube and the central member. First, the center member 100 may be made of a metallic or non-metallic material, and as shown in the drawing, two or more loose tubes including one or more optical fiber core wires are wound around the center member 100. .

The loose tube is wound in an alternating hand helix around the center member at a certain distance, whereby the optical fiber 104 must be pulled out to connect the optical cable. The included loose tube 106 can be easily separated from the center member, thereby facilitating the connection between the optical cables and at the same time firmly fixing the loose tube around the center member 100.

However, when the outer diameter of the loose tube is too large, it is difficult to wind the spiral around the center member in the form of the spiral as described above, the outer diameter of the loose tube is preferably 7mm or less. In addition, as described above, one or more optical fiber core wires 104 are included in the inside of the loose tube, which is longer than the axial length of the loose tube 106 because the optical fiber core wires are included in the tube in a loose form. The remaining space inside the loose tube may be filled with a waterproof material 102 to protect the optical fiber from moisture or impact introduced into the loose tube from the outside.

And, as described above, the loose tube 106 preferably has a density of 0.945-0.970 g / cc, a flexural modulus of 1000 MPa or more at 20 ° C., and a melt index of 0.04-0.10 g / 10 min. By using the polyethylene resin in it, the optical cable containing such a loose tube can be made to have sufficient strength and bending elastic modulus, but not to produce post-shrinkage.

In addition, in the loose tube type optical cable according to the present invention, the shell 110 is formed of a plastic material, in particular, it is preferable to manufacture using a thermoplastic resin.

And, as can be seen in the accompanying drawings, the waterproof member 108 is formed in the space between the shell and the loose tube and between the loose tube and the center member, which is conventionally a waterproof member for an optical cable. Waterproof materials such as waterproof tapes, jelly, waterproof powders, absorbent polymers, waterproof yarns and the like, which have been used in the above, can generally be used. By using such a waterproof material, it is possible to prevent the optical fiber from being damaged due to moisture introduced from the outside.

In addition, in the loose tube type optical cable according to the present invention, in order to protect the optical cable from external impact, as shown in the drawing, a plastic interposition 112 can be inserted between the loose tubes. have.

As described above, according to the present invention, the strength of the loose tube and the flexural modulus of the loose tube are determined by using a polyethylene resin having specific properties instead of the conventional polypropylene or polybutylene terephthalate. And while it is possible to improve the flexibility, it does not cause the problem of post-shrinkage that the loose tube shrinks after the optical cable is completed, it is possible to provide a loose tube type optical cable having improved mechanical and physical properties.

Claims (5)

Center member 100; At least two loose tubes (106) containing at least one optical fiber core wire wound therein and wound in an alternating hand helix that is oriented at a predetermined distance around the center member; Outer shell 110 of plastic material surrounding the loose tube; And A loose tube type optical cable composed of a waterproof member 108 formed in a space between the loose tube and the shell and between the ribbon tube and the center member, wherein the loose tube is made of polyethylene resin. Optical cable. The polyethylene resin of claim 1, wherein the polyethylene resin has a density of 0.945-0.970 g / cc, a flexural modulus of 1000 MPa or more at 20 ° C., and a melt index of polyethylene in the range of 0.04-0.10 g / 10 min. Loose tube optical cable. The loose tube type optical cable according to claim 1 or 2, wherein an outer diameter of the loose tube is 7 mm or less. The loose tubular optical cable according to claim 1 or 2, wherein the waterproof member uses at least one selected from the group consisting of a waterproof tape, an absorbent polymer, a waterproof yarn, a waterproof powder, and a jelly. 3. The loose tube type optical cable according to claim 1 or 2, wherein the plastic sheath surrounding the loose tube is made of a thermoplastic resin.