KR20100089280A - Slimmed micro-unit optical fiber cable - Google Patents

Abstract

PURPOSE: A slim micro unit optical cable is provided to easily maintain the shape of a micro unit tube by minimizing the size of a tensile line. CONSTITUTION: An optical fiber aggregate includes at least one tube type optical fiber unit. A waterproof member(120) surrounds the optical fiber aggregate. A sheath layer(130) coats the waterproof member. At least one pair of slim type tension layers(140) respectively have the width of the columnar direction wider than the width of the radius diameter for minimizing the thickness of the sheath layer. The slim type tension layer is symmetrically arranged on the sheath layer outside the waterproof member. The slim type tension layer includes at least two small tension lines(142) and a polymer resin layer(144).

Description

Slimmed micro-unit optical fiber cable

The present invention relates to a miniaturized micro unit optical cable, and more particularly, to a miniaturized micro unit optical cable having an improved structure of a tensile line.

In general, the optical cable can be classified into a loose tube type and a ribbon tube type according to the structure of the core of the optical cable. The loose tube type optical cable is a structure in which a plurality of optical fiber units in which as many fiber core wires as necessary in the tube are mounted together with the jelly compound are assembled longitudinally around the tensile tension line located at the center of the cable. The ribbon tube optical cable is a structure in which a fiber optic unit in which a plurality of optical fiber ribbons are aligned and coated in a plastic tube is stacked together with a jelly compound and then aggregated in a longitudinal direction around a tensile tension line located at the center of the cable. .

1 is a cross-sectional view schematically showing the structure of a conventional micro unit optical cable.

Referring to FIG. 1, a conventional micro unit optical cable 1 includes a plurality of tubular units 10 each having a plurality of optical fibers 12 embedded therein, and a plurality of units 10 together with a waterproof material 20. The outer wrapper of the waterproof yarn tape 30, including a winding waterproof yarn tape 30, a pair of tension lines 40 symmetrically positioned on the outside of the waterproof yarn tape 30, and a tension line 40. The sheath 50 is provided.

By the way, in the conventional micro-unit optical cable 1, since the tension line 40 is not only circular or elliptical in cross section, but also located inside the sheath 50 on the outside of the waterproof yarn tape 30, the unit 10 Not only is it difficult to maintain the shape of the tube), the outer diameter of the tensile line 40 must be smaller than the thickness of the sheath 50 is a constraint that the aggregation of the unit 10 in which the optical fibers are embedded is possible.

In addition, since the diameter of the cable is limited by the number of fiber optic cores, it is difficult to reduce the diameter of the optical cable 1 and the thickness of the sheath 50 cannot be smaller than the outer diameter of the tensile line 40, so that the outer diameter of the entire cable is Since it became large, there existed a problem in the design and manufacture of the optical cable 1. Therefore, according to the structure of the conventional micro-unit optical cable 1, the thickness of the sheath 50 is relatively large compared to the outer diameter of the tension line 40, so that the material of the sheath 50 is excessively wasted, and the optical cable There was a problem that the bendability of (1) was excessively produced.

On the other hand, in the conventional micro-unit optical cable 1, when an external impact load is applied to the outer sheath 50, the units 10 are pressed by the tension line 40 so that the optical fiber inside the tube is excessively deformed. There was also a problem.

In addition, even when the metallic waterproof yarn tape 30 is applied, excessive strain energy is generated at the interface between the tensile line 40 and the polymer sheath 50 when an impact load or a bending load is applied to the optical cable 1. As a result, an interfacial separation phenomenon may occur and the optical cable 1 may be damaged.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a miniaturized micro unit optical cable capable of reducing the outer diameter of the optical cable by changing the tension line into a strip-shaped slimmer structure.

In order to achieve the above object, the miniaturized micro-unit optical cable according to a preferred embodiment of the present invention, the optical fiber assembly including at least one tubular optical fiber unit; A waterproof member surrounding the optical fiber assembly; A sheath layer covering the waterproof member; In order to minimize the thickness of the sheath layer, each of the circumferential width larger than the width in the radial direction, and at least a pair of slim tensile layer installed in the sheath layer to be symmetrical to the outside of the waterproof member; .

Preferably, each of the slim tensile layers comprises: at least two small tension lines arranged side by side in the circumferential direction; And a polymer resin layer having a rectilinear or curved rectilinear cross section so that the tensile lines are contained therein.

Preferably, each of the slim tensile layers comprises: at least a plurality of FRP fibers arranged side by side in the circumferential direction; And a polymer resin layer having a rectilinear or curved rectangular cross section so that the fibers are enclosed.

Preferably, the polymer resin layer is composed of a tape or a polymer layer.

Preferably, the tensile line is made of FRP or metal.

Preferably, each slim tensile layer has a net structure.

Preferably, the net structure is in the form of FRP cotton yarn or metal mesh tape.

Preferably, the waterproof member includes a waterproof member disposed between respective tubular optical fiber units of the optical fiber assembly; And a waterproofing tape taped to surround the waterproofing material.

The miniaturized microunit optical cable according to the present invention has the following effects.

First, by minimizing the size (thickness) of the tension line, it is possible to manufacture a miniaturized and slimmed optical cable that is easy to maintain the shape of the microphone unit tube.

Second, even without filling the jelly layer inside the sheath, it is possible to manufacture a variety of unit tubular cables that can improve the resistance of the optical cable to external impact by the material and structure of the tensile layer.

Third, it is easy to control the size and shape of the symmetrical tensile line, and can reduce the deformation between the symmetrical tensile line surface portion and the waterproof yarn tape and tube, it is possible to manufacture the optical cable with excellent compressive strength, than the outer diameter of the conventional cable It is possible to manufacture smaller and slimmer optical cables.

Other objects and advantages of the present invention can be understood by the following detailed description, which will be more clearly understood by preferred embodiments of the present invention. In addition, the objects and advantages of the present invention should be understood by the structure, configuration, arrangement, arrangement, means, methods, and combinations thereof defined by the claims, but various modifications and changes may be made without departing from the spirit and scope of the present invention. It will be apparent to those skilled in the art that this is possible.

Hereinafter, a miniaturized micro unit optical cable according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view schematically showing the structure of a miniaturized microunit optical cable according to a preferred embodiment of the present invention, and FIG. 3 is a perspective view showing an extract of the tensile layer of FIG.

2 and 3, the optical cable 100 according to the present embodiment includes an optical fiber assembly including at least one tubular optical fiber unit 110, a waterproof member 120, and a waterproof member 120 surrounding the optical fiber assembly. In order to minimize the thickness of the sheath layer 130 and the sheath layer 130, each having a width in the circumferential direction larger than the radial width of the optical cable 100, respectively, on the outside of the waterproof member 120 The sheath layer 130 has at least one pair of slim tensile layers 140 arranged therein so as to be symmetrical with each other. Reference numeral 150 denotes a lip code.

Each of the tubular micro-units 110 includes a tube 112 of plastic form, a plurality of optical fibers 114 interposed inside the tube 112, and the optical fibers 114 together with the tube 112. It is provided with a waterproof yarn interposed (not shown).

The waterproof member 120 includes a waterproof member 122 disposed between the tubes 112 of each optical fiber unit 110 and a waterproof yarn tape 124 taped to surround the waterproof member 122. Here, the waterproof material 122 is a conventional waterproof material is used, the waterproof yarn tape 124 may be a metal or polymer, and is formed by transverse winding along the longitudinal direction of the optical fiber assembly around the waterproof material 122.

The sheath layer 130 is to absorb the impact applied to the optical cable 100 from the outside and to protect the optical fibers from the incoming moisture, any of metals or polymers such as polyurethane, polyolefin, polyvinyl chloride, polycarbonate, etc. It may be composed of one, or may be formed of a structure in which a metal and a polymer are arranged in two. The sheath layer 130 made of a polymer may be made of a foamed composite.

Each of the tensile layers 140 includes at least two small tensile lines 142 arranged side by side in the circumferential direction of the optical cable 100, and a rectangular polymer resin layer having a straight cross section so as to contain the small tensile lines 142. 144. Here, of course, the polymer resin layer 144 may be bent to correspond to the outer diameter of the waterproof yarn tape 124. The tensile layer 140 not only maintains the shape of the micro unit tube 112 but also facilitates the assembly of the tubes and reduces the thickness thereof, thereby reducing the thickness of the sheath layer 130 and ultimately reducing the diameter of the optical cable 100. To function. In addition, according to the present embodiment, by improving the surface portion in which the respective tensile layer 140 and the sheath layer 130 contact, it provides a function to be flexible to the external impact and bending applied to the optical cable 100.

Each of the small tension wire 142 is preferably a fiber-reinforced plastic or a conventional metal wire. In the case of a wire, its outer diameter is about 1.5 mm. The polymer resin layer 144 is preferably formed of a tape or a polymer.

4 is a perspective view showing another embodiment of a slim tensile layer that may be used in the miniaturized microunit optical cable according to the present invention.

Referring to FIG. 4, each slim tensile layer 140a according to the present embodiment includes at least a plurality of FRP fibers 142a and fibers 142a arranged side by side in the circumferential direction of the optical cable 100. The polymer resin layer 144a having a rectangular cross section is preferably provided. Here, the polymer resin layer 144a is the same as the polymer resin layer 144 of FIGS. 2 and 3, and the FRP fibers 142a have a diameter smaller than that of the small tensile lines 142 of the above-described embodiment. As a thing, it is preferable to have a yarn structure.

5 is a perspective view showing another embodiment of a slim tensile layer that can be used in the miniaturized microunit optical cable according to the present invention.

Referring to FIG. 5, each slim tensile layer 140b according to the present embodiment represents a net structure manufactured in the form of FRP cotton yarn or metal mesh tape.

Using the tensile layers of the embodiments according to FIGS. 4 and 5, it is possible to reduce the external damage to the cable outer diameter and the female side breakage due to the contact between the tubes due to the external pressing of the optical cable, for filling to be used inside the cable Reduce the amount of jelly. On the other hand, by using the tension layer according to a preferred embodiment of the present invention, it is possible to manufacture the twisted wire shape of the various unit tubes difficult to the existing stranded wire, and to make the optical cable so that the thickness of the sheath layer 130 is smaller than that of the conventional Can be.

The following drawings attached to this specification are merely illustrative of the preferred embodiments of the present invention, and together with the description of the present invention to serve to more clearly understand the technical spirit of the present invention, the present invention It should not be interpreted to be limited to the content described in such drawings.

1 is a cross-sectional view schematically showing the structure of a conventional micro unit optical cable.

2 is a cross-sectional view schematically showing the structure of a miniaturized microunit optical cable according to a preferred embodiment of the present invention.

3 is a perspective view showing an extract of the tensile layer of FIG.

4 is a perspective view showing another embodiment of a slim tensile layer that may be used in the miniaturized microunit optical cable according to the present invention.

5 is a perspective view showing another embodiment of a slim tensile layer that can be used in the miniaturized microunit optical cable according to the present invention.

Claims (8)

An optical fiber assembly including at least one tubular optical fiber unit; A waterproof member surrounding the optical fiber assembly; A sheath layer covering the waterproof member; And At least one pair of slim tensile layers each having a circumferential width greater than a radial width to be symmetrical to the outside of the waterproof member so as to minimize the thickness of the sheath layer; Miniaturized micro-unit optical cable, characterized in that. The method of claim 1, Each of the slim tensile layers are: At least two small tension lines arranged side by side in the circumferential direction; And Miniaturized micro-unit optical cable comprising a; a polymer resin layer having a rectangular or curved rectangular cross section so that the tensile lines are embedded. The method of claim 1, Each of the slim tensile layers are: At least a plurality of FRP fibers arranged side by side in the circumferential direction; And Miniaturized micro-unit optical cable comprising a; a polymer resin layer having a rectangular or curved straight cross section so that the fibers are embedded. The method according to claim 2 or 3, Miniaturized micro unit optical cable, characterized in that the polymer resin layer is composed of a tape or a polymer layer. The method of claim 2, Miniaturized micro unit optical cable, characterized in that the tension line is made of FRP or metal. The method of claim 1, Miniaturized micro unit optical cable, characterized in that each of the slim tensile layer has a net structure. The method of claim 6, Miniature micro unit optical cable, characterized in that the net structure is in the form of FRP cotton yarn or metal mesh tape. The method of claim 1, The waterproof member A waterproof member disposed between the respective tubular optical fiber units of the optical fiber assembly; And Miniaturized micro-unit optical cable characterized in that it comprises a waterproof tape taped to surround the waterproof material.

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