JP3140301U - Non-hexagonal arrangement of optical fibers - Google Patents

Abstract

An improved optical fiber non-regular hexagonal arrangement structure is provided.
The improved non-regular hexagonal arrangement of optical fibers of the present invention forms a plurality of basic units composed of a plurality of optical fibers, the plurality of optical fibers having a cylindrical outer surface having a homologous diameter, and A plurality of optical fibers are arranged in the form of a non-regular hexagonal arrangement, the non-regular hexagonal arrangement has six sides, each one of the three alternate sides of the basic unit is composed of n optical fibers, and the basic unit Each of the other three alternate sides consists of n-1 optical fibers. The three replacement sides of the basic unit having n optical fibers are connected to the other three replacement sides of the basic unit having n-1 optical fibers, so that the basic units are concentrated and the basic A central optical fiber is placed between the units and the optical fibers are arranged together, thereby preventing the central optical fiber from being compressed.
[Selection] Figure 3

Description

  The present invention relates to a non-regular hexagonal arrangement structure of optical fibers, and arranges light rays in a non-regular hexagonal form. More precisely, the present invention relates to a structure in which a plurality of optical fibers are appropriately combined together.

In the prior art, a plurality of optical fibers are concentrated in a peak-to-valley relationship, and these optical fibers are fused into a plurality of subsets, after which the optical fibers are fused into a final arrangement.

However, the central part between the plurality of subsets described above is compressed to reduce the optical transmission rate. In addition, the known final arrangement is complex and therefore expensive.

An object of the present invention is to provide an improved non-regular hexagonal arrangement of optical fibers and to remedy the above-mentioned drawbacks.

  The improved non-regular hexagonal arrangement of optical fibers of the present invention forms a plurality of basic units composed of a plurality of optical fibers, the plurality of optical fibers having a cylindrical outer surface having a homologous diameter, and the plurality of optical fibers Arranged in the form of a non-regular hexagonal arrangement, the non-regular hexagonal arrangement has six sides, each one of the three alternate sides of the basic unit consists of n optical fibers, and another three of the basic unit. Each one of the alternating sides consists of n-1 optical fibers. The three replacement sides of the basic unit having n optical fibers are connected to the other three replacement sides of the basic unit having n-1 optical fibers, so that the basic units are concentrated and the basic A central optical fiber is placed between the units, and the optical fibers are arranged together, thereby preventing the central optical fiber from being compressed.

  According to the present invention, the optical transmission rate of the array can be improved and the manufacturing process can be simplified.

FIG. 1 is a view showing a fused optical fiber according to the present invention, which includes three basic units 11, and each basic unit includes a plurality of optical fibers 111. The optical fiber 111 is arranged in the form of an array having a cylindrical outer surface of homogenous diameter and having a regular hexagonal cross section, the optical fiber 111 is encased in the coating 12, and the optical fiber is then subjected to a high temperature vacuum environment. To merge. The regular hexagonal array has six sides, and the first side is composed of six optical fibers 111. The second side is composed of seven optical fibers 111. The third side is composed of six optical fibers 111. The fourth side is composed of seven optical fibers 111. The fifth side is composed of six optical fibers 111. The sixth side is composed of seven optical fibers 111. That is, the basic unit 11 has six sides, each of the three replacement sides of the basic unit 11 is composed of n optical fibers, and each of the other three replacement sides of the basic unit 11 is It consists of n-1 optical fibers. For example, as shown in FIG. 1, each of the three replacement sides of the basic unit 11 is composed of six optical fibers 111, and each of the other three replacement sides of the basic unit 11 is seven. Optical fiber 111.

  As shown in FIGS. 1 to 3, a plurality of optical fibers are arranged together to form a regular hexagonal basic unit, and each one of the three alternate sides of the basic unit 11 is composed of n optical fibers. In addition, each of the other three alternate sides of the basic unit 11 is composed of n-1 optical fibers. The sides of the n optical fibers of the basic unit 11 concentrate the three basic units by connecting the sides of the n-1 optical fibers of the other basic units 11. The optical fiber 111 in the central portion S between the three basic units 11 is arranged, and the optical fibers 111 of the basic unit 11 and the optical fibers (shown in FIG. 4) of the other two basic units 11 are arranged together. . Thereby, the optical fibers 111 of the basic unit 11 are not compressed with each other, improving the optical transmission rate of the array and simplifying the manufacturing process.

  It should be noted that the elements that arrange one, two, or more elements together may be arranged differently from the arrangement form described above, and the application of merit is possible. .

It is sectional drawing of the basic unit of this invention. It is a figure which shows how three basic units are concentrated. It is a figure which shows the joining system of three basic units. FIG. 4 is an enlarged view of a central portion S in FIG. 3.

Explanation of symbols

11 Basic unit 12 Covering material 111 Optical fiber
S center part

Claims (2)

A non-regular hexagonal arrangement structure of optical fibers,
Forming a plurality of basic units composed of a plurality of optical fibers, the plurality of optical fibers having a cylindrical outer surface having a homologous diameter, and arranging the plurality of optical fibers in a non-regular hexagonal arrangement; The square arrangement has six sides, each one of the three alternate sides of the basic unit is composed of n optical fibers, and each one of the other three alternate sides of the basic unit is n -It consists of one optical fiber, and
Three alternate sides of the basic unit with n optical fibers connect another three alternate sides of the basic unit with n-1 optical fibers, thus concentrating the basic units, A non-regular hexagonal arrangement structure of optical fibers, wherein an optical fiber in a central portion between the basic units is disposed, and the optical fibers are arranged together, thereby preventing the optical fibers in the central portion from being compressed. The non-regular hexagonal arrangement structure of the optical fiber according to claim 1, wherein n = 6 in the non-regular hexagonal arrangement structure of the optical fiber.

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