KR200358165Y1 - Multipurpose plastic optic cable - Google Patents

Abstract

The present invention relates to a multi-purpose plastic optical cable, the core portion 10 of the optical fiber material; A braided layer (11) laminated and coated on the outer circumferential surface of the core portion (10); It consists of a thermoplastic outer shell layer 12 laminated and coated on the outer circumferential surface of the braided layer 11.

In the present invention, since the braided layer 11 is laminated and coated on the outer circumferential surface of the core portion 10, the optical fiber is protected from the high temperature that appears when the thermoplastic material is extruded on the outer circumferential surface of the braided layer 11 to improve the signal stably and uniformly. In addition, the workability is improved and the bending property and the tensile force are excellent, so that it is physically stable even after installation.

In addition, since the braided layer 11 can be grounded to an existing device, the construction cost is reduced and workability is improved, which enables the worker to work conveniently and at the same time, form a network for a wide variety of uses. There is.

Description

Multi-Purpose Plastic Optical Cables {MULTIPURPOSE PLASTIC OPTIC CABLE}

The present invention relates to a versatile plastic optical cable that is used not only for high-speed home networking but also for office local area networks, automobiles, airplanes, and lighting.

Generally, the plastic optical fiber is made of a plastic material called polymethylmethacrylate (PMMA), which is an acrylic resin having good light transmittance.

There are two types of optical fibers: plastic optical fiber (POF) and glass optical fiber (GOF). The plastic optical fiber is slightly lower in transmission characteristics compared to glass optical fiber (GOF), but high-speed transmission, large data and various It can be used for the purpose, and it is very advantageous in installation, maintenance and system price because it has a huge cost reduction effect due to flexibility and connection problem which is a disadvantage of glass fiber, which is essential for the use of high speed transmission and large data as described above.

The conventional plastic optical cable used in the prior art has a problem that when the thermoplastic material is extruded to the optical fiber to cover the outer layer, the optical fiber is damaged due to the extrusion temperature of about 120 ℃ to 230 ℃ to send the desired transmission signal.

In order to solve such a problem, a conventional plastic optical cable, which is conventionally used, has a thin thermoplastic material on the outer surface of the core part 1 to protect the surface of the core part 1, which is an optical fiber, from high temperature. After coating the 1st coating layer 2 which is a material by extrusion, after cooling to normal temperature, it is comprised by extruding the 2nd coating layer 3 of thick thickness which is a thermoplastic material again secondaryly.

However, the coating process has to be divided into the first coating layer (2) and the second coating layer (3), which is the primary coating layer, so that the loss of the core part (1) is also required. And the first coating layer 2 is not completely in contact with each other, and the connector (connector) is fastened to both ends, and then the core part 1 is detached and pulled out. There is a problem in that a separate grounding line must be installed (for example, a separate grounding line is used to ground the equipment of a household distribution box such as an apartment) in order to ground an end portion to a peripheral device (active / passive device).

The present invention is devised to solve the above problems,

An object of the present invention is to provide a multi-purpose plastic optical cable that can protect the optical fiber as a core even when the outer layer is extruded at a high temperature.

1 is a perspective view of a conventional multipurpose plastic optical cable,

2 is a schematic perspective view of a multipurpose plastic optical cable of the present invention;

Figure 3 is a longitudinal cross-sectional view of the multipurpose plastic optical cable of the present invention,

Figure 4 is a cross-sectional view of the multipurpose plastic optical cable of the present invention,

5 is a schematic perspective view of a multi-use plastic optical cable in a state in which a braided layer is configured to overlap as another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10 core portion 11 braided layer

12: outer layer

Multipurpose plastic optical cable of the present invention for achieving the above object is characterized in that the braided layer (編造 層 / BRAID LAYER) is formed on the outer circumferential surface of the optical fiber which is the core portion is formed as a net.

Hereinafter, with reference to the accompanying drawings of the present invention will be described in detail.

Multipurpose plastic optical cable of the present invention, as shown in Figure 2 to 4, the core portion 10 of the material of the optical fiber;

A braided layer (11) laminated and coated on the outer circumferential surface of the core portion (10);

It is comprised including the outer skin layer 12 of the thermoplastic material laminated | stacked and coat | covered on the outer peripheral surface of the said braided layer 11.

The braided layer 11 is coated on the outer circumferential surface of the core portion 10 of the optical fiber material by laminating one layer or multiple layers of two or more layers such that the core portion 10 is not visible.

The braided layer 11 is to form a braided layer by the element wire made of various kinds of metal wires or syntheses according to the intended use by the user,

The braided layer 11 is a braided layer formed by alternately intersecting metal lines on the outer circumferential surface of the core portion 10, which is the optical fiber, or an element wire made of a synthetic fiber instead of the metal wire on the outer circumferential surface of the core portion 10. It consists of a braided layer formed by alternately crossing each other successively.

As shown in FIG. 5, which is another embodiment of the present invention, the braided layer 11 that is laminated and coated in multiple layers on the outer circumferential surface of the core portion 10 has a metal line continuously connected to each other on the outer circumferential surface of the core portion 10. A first braided layer 11a that is alternately stacked alternately;

It consists of the 2nd braided layer 11b by which the metal line is laminated | stacked alternately in succession mutually on the outer peripheral surface of the said 1st braided layer 11a.

On the other hand, in the case of using a wire made of a synthetic fiber instead of a metal wire, the braided layer 11 laminated and coated in a plurality of layers allows the wires composed of a synthetic fiber to alternately cross each other continuously on the outer circumferential surface of the core portion 10 instead of the metal wire. It will be stacked in multiple layers.

The metal wires of the single or plural braided layers 11 of the present invention shown in FIGS. 2 to 5 are tin for preventing corrosion of the copper wires on the outer circumferential surface of the copper wires having an outer diameter of 1/100 mm. Anodized tin-plated copper wire or an aluminum wire drawn outside in the range of 1/100 mm is preferable, and a small wire made of the above-mentioned summed wire is also preferably a polyester in the range of 1/100 mm. The outer diameter of the element wire of the metal wire or the synthetic fiber should be in the range of 1/100 mm. If the external diameter is longer, the number of the element wires of the metallic wire or the synthetic fiber that surrounds the surface of the core portion 10 when braiding the core portion 10 is longer. It is relatively small and cannot be precisely braided, so that the core part 10 is easily pulled out and is easily detached. If the outer diameter is shorter than that, the wires made of metal wires or synthetic fibers are easily broken, and the tin-plated copper wire or aluminum wire The preferred reason is that it is better to withstand heat than other metal wires and is grounded, and the core 10 can be tightened well so that the core 10 is not separated. The reason why the polyester is preferable is that the wire of the polyester is thin so that many wires of the braided layer can be inserted.

The versatile plastic optical cable of the present invention configured as described above protects the optical fiber, which is the core portion 10, from the extrusion temperature (120 ° C. to 230 ° C.) of the thermoplastic material which is extruded when the coating is performed by the braided layer 11. The flexibility and tensile force of the optical cable. In addition, in the related art, since the characteristics of the optical cable are not conductors, a separate ground wire should be provided to ground one end of the core part 10 to an existing peripheral device (active / passive device) during operation. By being able to ground (11) directly to the existing peripherals, not only the cost of construction but also the inconvenience of work is eliminated.

The method of laminating and coating the braided layer 11 on the outer circumferential surface of the core part 10 is as much as the number of strands for braiding a wire made of a metal wire drawn in an outer diameter of 1/100 mm or a composite wire of an outer diameter of 1/100 mm. In addition, after winding the failure and putting the failure into the braid, the core portion 10 is installed vertically on the braid into which the failure is introduced, and then the coverage is adjusted so that the core portion 10 is invisible. When the knitting machine is operated, the braided layer, which is a zigzag net, is laminated and coated on the outer circumferential surface of the core part 10.

As described above, the multi-purpose plastic optical cable of the present invention has a wire made of a metal wire or a synthetic fiber compared to a conventional plastic optical cable double coated with a thermoplastic material on the optical fiber, which is the core portion 1, and the braided layer 11 has a core portion ( Since it is laminated and coated on the outer circumferential surface of 10), the core portion 10 can be protected from the high temperature which appears during extrusion of the thermoplastic material on the outer circumferential surface of the braided layer 11, so that the signal can be stably and uniformly improved and workability is improved. At the same time, it has excellent bending characteristics and tensile force, so that it is physically stable even after installation.

In addition, since the braided layer 11 can be grounded to an existing device, construction cost can be reduced and workability can be improved, and a worker can work conveniently, and a network can be formed for a wide variety of uses.

Claims (8)

A core portion of the optical fiber material; A braided layer laminated and coated on an outer circumferential surface of the core portion; The multi-purpose plastic optical cable, characterized in that it comprises a thermoplastic outer shell layer which is laminated on the outer peripheral surface of the braided layer. The multipurpose plastic optical cable according to claim 1, wherein the braided layer is a metal wire. The multipurpose plastic optical cable according to claim 1 or 2, wherein the braided layer is laminated and coated on one outer layer of the core portion of the optical fiber material such that the core portion is not visible. The multipurpose plastic optical cable according to claim 1 or 2, wherein the braided layer is laminated and coated in a plurality of layers of at least two layers so that the core portion is not visible on the outer circumferential surface of the core portion of the optical fiber material. 3. The multi-use plastic optical cable according to claim 2, wherein the metal wire of the braided layer is a tin-plated interlocking wire drawn in an outer diameter of 1/100 mm. 3. The multipurpose plastic optical cable according to claim 2, wherein the metal wire of the braided layer is an aluminum wire drawn in an outer diameter of 1/100 mm. The multipurpose plastic optical cable according to claim 1, wherein the braided layer is an element wire made of a synthetic fiber. 8. The multipurpose plastic optical cable according to claim 7, wherein the element wire of the braided layer is a polyester having an outer diameter of 1/100 mm.