KR200332982Y1 - Monolithic jumper cord cable - Google Patents

Abstract

The present invention is an indoor jumper cord cable used to connect optical transmission equipment and optical cable distribution box, optical cable distribution box and optical cable to each other. And a plurality of single core cords wrapped around the central tensile reinforcement material, wherein the surface coating of the single core cords is formed of a web portion and is interconnected by an integrated jumper cord cable.

Description

Monolithic jumper cord cable

The present invention relates to an integrated jumper cord cable. More specifically, it is an indoor jumper cord cable that is used for connecting the transmission equipment, the optical transmission equipment and the optical cable distribution box, the optical cable distribution box, and the optical cable. One is an integrated jumper cord cable.

Optical cable is a communication network transmission medium that transmits various signals such as voice signals, image signals, and data signals. The ultimate goal of information communication is FTTH (Fiber To The Home).

This means that high-speed information and communication networks are connected by fiber optic cables to each home.

Therefore, the optical jumper cord line, which is currently used by planning cities, new large buildings, and information and communication companies, will be expanded and spread, and if FTTH is realized in each home, the range of application will be widened as a power line for home appliances.

In particular, with the rapid development of wireless communication networks, the importance of optical communication is expanding.

With the development of information and communication technology, optical cables are commercially available as transmission equipment capable of transmitting hundreds of gigabits per bit (bps).

Optical cables are classified into ADSS (All Direct Self Support) cables that are directly installed on steel towers, processing cables that are installed on electric poles for processing, pipeline cables that are installed in pipes, and underground cables that are buried in the ground. Is used for long-distance light transmission from several kilometers to thousands of kilometers.

Among the types of optical cables, there are not only cables for long distance transmission but also optical cables used for distribution in the communication station or in the subscriber's premises, and for the interconnection between optical cables, transmission equipment and distribution boxes, and optical transmission equipment. cord).

Optical jumper cords are generally used with a length of 100m or less.

1 is a view showing the appearance and cross section of an optical jumper cord cable of a conventional jumper cord, and a single jumper cord composed of an optical fiber 10, a deep coating 11, a tension reinforcing material 12, and a surface coating 13 It consists of one outer layer coating 14 structure.

However, the conventional jumper cords are simply arranged by tying a plurality of single-core jumper cords, and the mechanical strength is low, and due to the lack of resistance to the tensile force given when the optical cable is installed, tension is applied to the optical fiber, which causes a decrease in optical characteristics.

In addition, since the manufacturing process consists of the production of each single-core jumper cord and the two-step process of re-associating them, the increase in manufacturing cost and the stress generated through a plurality of processes are applied to the optical fiber, resulting in a problem of deterioration of optical characteristics. It was.

An object of the present invention devised to solve the above problems is to place the tensile reinforcement material in the center of the optical cable and to form a single-jumper jumper cord with the web around each other, thereby simplifying the manufacturing process to reduce manufacturing costs and It is to provide an integrated jumper cord cable that minimizes the stress generated during the process by the process shrinkage to eliminate the cause of the optical properties, and facilitate the separation of the single-core cord when the optical cable is installed.

1 is a cross-sectional view of a conventional jumper cord.

Figure 2 is a cross-sectional view of the integrated jumper cord cable of the present invention

<Description of the code | symbol about the principal part of drawings>

10,20: optical fiber 11,21: deep coating

12,22: tensile reinforcement material 13,23: surface coating

14: outer layer coating 24: central tensile reinforcement

25: Web Department

The present invention for achieving the above object, includes a plurality of single core cord wrapped around the central tensile reinforcement and the central tensile reinforcement, the surface coating of the single core cord is formed integrally jumper cord cable interconnected by a web portion.

Hereinafter, the embodiment and the drawings of the present invention will be described in detail.

2 is a cross-sectional view of an embodiment of the present invention, which is composed of a union of a central tensile stiffener 24 and a single core cord wrapped around the central tensile stiffener.

The single core cord is composed of an optical fiber 20, a deep coating 21, a tensile reinforcing material 22, and a surface coating 23 from the center.

In general, aramid yarn is used as the tensile reinforcing material (22).

In this embodiment, the four single core cords are joined around the central tensile stiffener 24, and the single core cords are connected to the web section 25.

The web portion 25 is formed between the adjacent surface layer coatings 23 naturally by interconnecting adjacent ones of the outlets on which the surface layer coatings 23 of the dies are formed to allow the coating material to pass through.

The present invention can be produced in one process by extruding the single core cord on the outside based on the center tensile reinforcing material (24) at once.

In addition, since the present invention does not form an outer layer coating as compared with the prior art, the work of stripping the outer layer coating during the installation of the cable is omitted, and the tensile force imparted when the core tension reinforcement material 24 is inserted into several single-core cords is installed. It can also resist.

The single cores are connected to each other by web, so they are joined together to replace the outer layer coating before being separated for installation.

Separation between single-core cord is easily separated by pulling open the flaw on the web, it is easy to separate the single-core cord from the present invention without a special tool during installation and distribute it where necessary.

By inserting the central tensile reinforcement through the present invention, the mechanical strength during the installation was improved to protect the optical fiber from tension, and the web part was inserted into each jumper cord line to facilitate the separation of single-core cords.

In addition, it is possible to simplify the manufacturing process, reducing the manufacturing cost and the stress generated during the process is applied to the optical fiber is effective in solving the problem of optical properties deterioration.

Claims (1)

An integral jumper cord cable comprising a plurality of single core cords wrapped around a central tensile reinforcement and the central tensile reinforcement, wherein the surface coating of the single core cord is formed with a web portion.