CN115755310A - Optical cable with color nylon sleeve and bundling structure - Google Patents

Abstract

The invention belongs to the technical field of communication optical cables, and discloses a cluster structure optical cable with a colorful nylon sleeve, which comprises an optical fiber (21), a nylon sleeve (22) and an outer sheath (3), wherein the optical fiber (21) is positioned in the nylon sleeve (22), and the nylon sleeve (22) is in a strip structure; the method is characterized in that: the optical cable with the compact bundling structure further comprises a bundling component (1), wherein the bundling component (1) is composed of a first bundling unit, a second bundling unit and a third bundling unit; the nylon sleeve (22) is positioned in the edge cavity and the containing cavity inside the bundling component (1); the outer sheath (3) covers the bundling component (1); the nylon sleeve (22) is made of nylon, and different nylon sleeves (22) have different colors. The application has the following main beneficial technical effects: the fiber core has higher density, more compact structure, higher production speed, more convenient construction, easier differentiation and lower comprehensive cost.

Description

Optical cable with color nylon sleeve and bundling structure

Technical Field

The invention belongs to the technical field of communication optical cables, and discloses an optical cable with a bundling structure and a colored nylon sleeve.

Background

With the rapid development of the communication industry, people increasingly demand optical cables for high-speed transmission, and new requirements are provided for the density of optical fibers in the optical cables; on the other hand, the optical cable needs to be stripped quickly and distinguished conveniently; in addition, the layer stranded optical cable with higher fiber core density, easier construction and the like in the prior art has the obvious defects that SZ stranding is needed to form a cable core, the SZ stranding speed is quite slow, SZ stranding equipment is expensive, the occupied area is large, the operation noise is large, the maintenance is expensive, the electric power consumption is high, and professional personnel are needed for operation, so the production speed of the optical cable is greatly limited. On the other hand, in the optical fiber ribbon cable in the prior art, most of the material of the bonding layer of the optical fiber ribbon is polyacrylic ethyl ester, and the material has poor pressure resistance, poor wear resistance and relatively rough surface, and is easy to cause friction and wear among the optical fiber ribbons during production or use, thereby causing the deterioration of the performance of the optical fiber.

CN114415302a discloses a compact optical cable. The optical cable comprises an optical unit, a wrapping yarn layer, a central reinforcer, a water-blocking element and an outer sheath; the plurality of optical units and the plurality of water-blocking elements are arranged in parallel along the axial direction to form an optical unit group, the wrapping yarn layer is sleeved on the periphery of the optical unit group to form a bundle group, and the wrapping yarn layer is used for fixing the optical units and the water-blocking elements in the optical unit group; different wire harness groups are distinguished through wrapping yarn layers with different colors; the wire harness group is stranded on the periphery of the central reinforcing member; the outer sheath is arranged on the outermost layer and used for tightly sleeving the wire harness group and the central reinforcing piece. The production cycle of the optical cable is shortened, the production efficiency of the optical cable is improved, the cable diameter is reduced, the weight of the optical cable is reduced, the structure of the whole optical cable is more compact, and the wiring is further facilitated. The fiber core density has an increased space.

CN209525490U discloses a special-shaped self-supporting separable optical cable, which is characterized in that a plurality of optical fibers and a water-blocking yarn are paid off, a bundle tube extruded by a plastic extruding machine forms a bundle tube optical unit, a nonmetal reinforcing material is extruded outside the bundle tube optical unit to form a special-shaped unit, the nonmetal central reinforcing part is used as a central part to perform SZ stranding on the plurality of special-shaped units and is bundled by bundling yarns at a pitch of 20mm-22mm to form a cable core, and finally, a polyethylene sheath is extruded outside the cable core. The optical cable has separability, can be divided into six optical cables only by cutting the binding yarns, has good electrical performance, excellent environmental adaptability and certain mechanical performance, adopts a full-dry type, is not filled with factice, and has good environmental protection. It is not convenient for quick production, and prick the yarn and prick bad dysmorphism unit easily, need the SZ transposition.

Disclosure of Invention

In order to solve the problems, the invention aims to disclose a bundling structure optical cable with a colorful nylon sleeve, which is realized by adopting the following technical scheme.

A cluster structure optical cable with a colorful nylon sleeve comprises an optical fiber, a nylon sleeve and an outer sheath, wherein the optical fiber is positioned in the nylon sleeve, and the nylon sleeve is of a strip structure; the method is characterized in that: the optical cable with the compact bundling structure further comprises a bundling component, and the bundling component is composed of a first bundling unit, a second bundling unit and a third bundling unit; the first bundling unit consists of a first supporting component, a first edge restraining component and a first middle restraining component, wherein one end of the first edge restraining component is connected with the other end of the first supporting component, one end of the first middle restraining component is connected with the surface of the first supporting component between one end of the first supporting component and the other end of the first supporting component, the first edge restraining component is parallel to the first middle restraining component, the first edge restraining component and the first middle restraining component are positioned on the same side of the first supporting component, and a first edge cavity is formed between the first edge restraining component and the first middle restraining component; the second bundling unit consists of a second supporting component, a second edge restraining component and a second middle restraining component, wherein one end of the second edge restraining component is connected to the other end of the second supporting component, one end of the second middle restraining component is connected to the surface of the second supporting component between one end of the second supporting component and the other end of the second supporting component, the second edge restraining component is parallel to the second middle restraining component, the second edge restraining component and the second middle restraining component are both positioned on the same side of the second supporting component, and a second edge cavity is formed between the second edge restraining component and the second middle restraining component; the third bundling unit is composed of a third supporting component, a third edge restraining component and a third middle restraining component, one end of the third edge restraining component is connected to the other end of the third supporting component, one end of the third middle restraining component is connected to the surface of the third supporting component between one end of the third supporting component and the other end of the third supporting component, the third edge restraining component is parallel to the third middle restraining component, the third edge restraining component and the third middle restraining component are both positioned on the same side of the third supporting component, and a third edge cavity is formed between the third edge restraining component and the third middle restraining component; one end of the first support component, one end of the second support component and one end of the third support component are connected together; the first supporting component is parallel to the third middle constraint component, a third accommodating cavity is formed between the first supporting component and the third middle constraint component, the second supporting component is parallel to the first middle constraint component, a first accommodating cavity is formed between the second supporting component and the first middle constraint component, the third supporting component is parallel to the second middle constraint component, and a second accommodating cavity is formed between the third supporting component and the second middle constraint component; the nylon sleeve is positioned in the first edge cavity, the second edge cavity, the third edge cavity, the first accommodating cavity, the second accommodating cavity and the third accommodating cavity; the outer sheath covers the bundling component; the nylon sleeve 22 is made of nylon, and different nylon sleeves 22 have different colors.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the bundling part is of an integrated structure.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the first supporting component, the second supporting component and the third supporting component form an angle of 120 degrees with each other pairwise.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the cross section of the outer edge of the bundling part is a regular hexagon.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the cross sections of the first edge cavity, the second edge cavity, the third edge cavity, the first accommodating cavity, the second accommodating cavity and the third accommodating cavity are all parallelograms.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: each of the first edge cavity, the second edge cavity, the third edge cavity, the first accommodating cavity, the second accommodating cavity and the third accommodating cavity is internally provided with two nylon sleeves which are sequentially stacked; each nylon sleeve is internally provided with a plurality of light guide fibers which are not in contact with each other and are distributed linearly.

The application has the following main beneficial technical effects: the fiber core has higher density, more compact structure, higher production speed, more convenient construction and lower comprehensive cost.

Drawings

Fig. 1 is a schematic perspective view of a dissected segment of the example 1.

Fig. 2 is an enlarged cross-sectional structure diagram of fig. 1.

Fig. 3 is a schematic perspective view of a segment of the bundling member used in fig. 1 after dissection.

Fig. 4 is an enlarged cross-sectional view of fig. 3.

Fig. 5 is a schematic perspective view of a dissected segment of the example 2.

Fig. 6 is an enlarged cross-sectional view of fig. 5.

Fig. 7 is a schematic perspective view showing a piece of a dissected structure of the bundle member used in embodiment example 3.

Fig. 8 is an enlarged cross-sectional view of fig. 7.

In order to make the invention and its implementation easier for those skilled in the art to understand, reference numerals and corresponding names in the drawings are described in a one-to-one correspondence with each other in the specification. In the figure: 1-bundling member, 21-optical fiber, 22-nylon sleeve, 3-outer sheath, 11-first support member, 110-first edge cavity, 111-first edge constraint member, 112-first middle constraint member, 113-first containing cavity, 12-second support member, 120-second edge cavity, 121-second edge constraint member, 122-second middle constraint member, 123-second containing cavity, 13-third support member, 130-third edge cavity, 131-third edge constraint member, 132-third middle constraint member, 133-third containing cavity, 14-fourth support member, 141-fourth edge constraint member, 142-fourth middle constraint member.

Detailed Description

Examples 1

Referring to fig. 1 to 4, a bundle structure optical cable with a color nylon sleeve includes an optical fiber 21, a nylon sleeve 22, and an outer sheath 3, where the optical fiber 21 is located in the nylon sleeve 22, and the nylon sleeve 22 is in a strip structure; the method is characterized in that: the optical cable with the compact bundling structure further comprises a bundling component 1, wherein the bundling component 1 is composed of a first bundling unit, a second bundling unit and a third bundling unit;

the first bundling unit is composed of a first supporting component 11, a first edge restraining component 111 and a first middle restraining component 112, wherein one end of the first edge restraining component 111 is connected to the other end of the first supporting component 11, one end of the first middle restraining component 112 is connected to the surface of the first supporting component 11 between one end of the first supporting component 11 and the other end of the first supporting component 11, the first edge restraining component 111 is parallel to the first middle restraining component 112, the first edge restraining component 111 and the first middle restraining component 112 are both positioned on the same side of the first supporting component 11, and a first edge cavity 110 is formed between the first edge restraining component 111 and the first middle restraining component 112;

the second bundling unit is composed of a second supporting member 12, a second edge constraining member 121 and a second middle constraining member 122, one end of the second edge constraining member 121 is connected to the other end of the second supporting member 12, one end of the second middle constraining member 122 is connected to the surface of the second supporting member 12 between one end of the second supporting member 12 and the other end of the second supporting member 12, the second edge constraining member 121 is parallel to the second middle constraining member 122, the second edge constraining member 121 and the second middle constraining member 122 are both located on the same side of the second supporting member 12, and a second edge cavity 120 is formed between the second edge constraining member 121 and the second middle constraining member 122;

the third bundling unit is composed of a third supporting member 13, a third edge constraining member 131 and a third intermediate constraining member 132, one end of the third edge constraining member 131 is connected to the other end of the third supporting member 13, one end of the third intermediate constraining member 132 is connected to the surface of the third supporting member 13 between one end of the third supporting member 13 and the other end of the third supporting member 13, the third edge constraining member 131 is parallel to the third intermediate constraining member 132, the third edge constraining member 131 and the third intermediate constraining member 132 are both located on the same side of the third supporting member 13, and a third edge cavity 130 is formed between the third edge constraining member 131 and the third intermediate constraining member 132;

one end of the first support member 11, one end of the second support member 12, and one end of the third support member 13 are coupled together; the first supporting part 11 is parallel to the third middle constraint part 132, a third accommodating cavity 133 is formed between the first supporting part 11 and the third middle constraint part 132, the second supporting part 12 is parallel to the first middle constraint part 112, a first accommodating cavity 113 is formed between the second supporting part 12 and the first middle constraint part 112, the third supporting part 13 is parallel to the second middle constraint part 122, and a second accommodating cavity 123 is formed between the third supporting part 13 and the second middle constraint part 122;

the nylon sleeve 22 is positioned in the first edge cavity 110, the second edge cavity 120, the third edge cavity 130, the first accommodating cavity 113, the second accommodating cavity 123 and the third accommodating cavity 133; the outer sheath 3 covers the bundling component 1;

the nylon sleeve 22 is made of nylon, and different nylon sleeves 22 have different colors.

In the optical cable with the color nylon sleeve bundle structure, the nylon sleeve 22 is made of nylon 6 or nylon 12 or a mixture thereof;

above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: only one nylon sleeve 22 is arranged in each of the first edge cavity 110, the second edge cavity 120, the third edge cavity 130, the first accommodating cavity 113, the second accommodating cavity 123 and the third accommodating cavity 133.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the optical fibers 21 are distributed in a bundle shape in the nylon sleeve 22; the bundling is to bundle a plurality of optical fibers or to bundle a plurality of optical fibers with a bundling material such as a rope or yarn, and the bundling is to arrange the optical fibers in one or more bundles.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the bundling part 1 is of one-piece construction, which is usually formed by extrusion.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the first support part 11, the second support part 12 and the third support part 13 form an angle of 120 degrees with each other two by two.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the cross section of the outer edge of the bundling member 1 is a regular hexagon.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the cross sections of the first edge cavity 110, the second edge cavity 120, the third edge cavity 130, the first accommodation cavity 113, the second accommodation cavity 123 and the third accommodation cavity 133 are parallelograms.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the material of the bundling part 1 is plastic or metal.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: a single mode type or a multimode type of the optical fiber 21.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the nylon jacket 22 covers the optical fiber 21 entirely or at the edge.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the material of the outer sheath 3 is plastic.

EXAMPLES example 2

Referring to fig. 5 to 6 and fig. 1 to 4, a bundle-structured optical cable with a colored nylon sheath is substantially the same as embodiment 1, except that: each of the first edge cavity 110, the second edge cavity 120, the third edge cavity 130, the first accommodating cavity 113, the second accommodating cavity 123 and the third accommodating cavity 133 is internally provided with two nylon sleeves 22 which are sequentially stacked; each nylon jacket 22 has a plurality of optical fibers 21 that are not in contact with each other and are linearly arranged.

Further, each of the first edge cavity 110, the second edge cavity 120, the third edge cavity 130, the first receiving cavity 113, the second receiving cavity 123, and the third receiving cavity 133 has a plurality of other nylon covers 22 stacked in sequence.

In the optical cable with the color nylon sleeve bundle structure, the nylon sleeve 22 is strip-shaped, and the nylon sleeve 22 can also be called an optical fiber ribbon; that is, an optical cable with a bundling structure having a colored nylon jacket in the present application may also be referred to as an optical fiber ribbon cable with a compact bundling structure.

In the present application, it is not limited to the cases of embodiment 1 and embodiment 2, and it is also possible to have more bundling units, so that more optical fibers can be more flexibly placed, and the capacity of the optical fibers can be more effectively increased.

EXAMPLE 3

Referring to fig. 7 to 8 and fig. 1 to 6, a bundle-structured optical cable with a colored nylon sheath is substantially the same as the embodiments 1 and 2, except that: the bundling component 1 is composed of a first bundling unit, a second bundling unit, a third bundling unit and a fourth bundling unit;

the fourth bundling unit is composed of a fourth supporting member 14, a fourth edge constraining member 141 and a fourth middle constraining member 142, wherein one end of the fourth edge constraining member 141 is connected to the other end of the fourth supporting member 14, one end of the fourth middle constraining member 142 is connected to the surface of the fourth supporting member 14 between one end of the fourth supporting member 14 and the other end of the fourth supporting member 14, the fourth edge constraining member 141 is parallel to the fourth middle constraining member 142, the fourth edge constraining member 141 and the fourth middle constraining member 142 are both positioned on the same side of the fourth supporting member 14, and a fourth edge cavity is formed between the fourth edge constraining member 141 and the fourth middle constraining member 142;

one end of the first support member 11, one end of the second support member 12, one end of the third support member 13, and one end of the fourth support member 14 are coupled together; the first support part 11 is parallel to the fourth middle constraint part 142, a fourth accommodating cavity is formed between the first support part 11 and the fourth middle constraint part 142, the second support part 12 is parallel to the first middle constraint part 112, a first accommodating cavity 113 is formed between the second support part 12 and the first middle constraint part 112, the third support part 13 is parallel to the second middle constraint part 122, and a second accommodating cavity 123 is formed between the third support part 13 and the second middle constraint part 122; the fourth supporting part 14 is parallel to the third middle constraint part 132, and a third accommodating cavity 133 is formed between the fourth supporting part 14 and the third middle constraint part 132;

the nylon sleeve 22 is positioned in the first edge cavity 110, the second edge cavity 120, the third edge cavity 130, the fourth edge cavity, the first accommodating cavity 113, the second accommodating cavity 123, the third accommodating cavity 133 and the fourth accommodating cavity; the outer sheath 3 covers the bundling member 1.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the first support member 11 and the second support member 12 are perpendicular to each other, the second support member 12 and the third support member 13 are perpendicular to each other, the third support member 13 and the fourth support member 14 are perpendicular to each other, the fourth support member 14 and the first support member 11 are perpendicular to each other, the first support member 11 and the third support member 13 are in a straight line, and the second support member 12 and the fourth support member 14 are in a straight line.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the cross section of the outer edge of the bundling member 1 is circular.

Above-mentioned a structure optical cable tied in a bundle with colored nylon cover, its characterized in that: the length of the first edge cavity 110 is unequal to the length of the first receiving cavity 113, the length of the second edge cavity 120 is unequal to the length of the second receiving cavity 123, the length of the third edge cavity 130 is unequal to the length of the third receiving cavity 133, and the length of the fourth edge cavity is unequal to the length of the fourth receiving cavity; the unequal lengths allow for the placement of nylon sleeves 22 of different lengths, which allows for more efficient use of space.

In the light of the embodiments of the present application, it is easy to make the bundling member 1 include not less than three bundling units, so that the space can be divided more effectively and the space resources can be utilized better, which should also be the protection scope of the present application.

In order to quickly distinguish and accurately find the needed optical fiber, the optical fiber can be realized by matching schemes of coloring the surface of the optical fiber, enabling different supporting parts to have different colors and the like; as in the embodiment 1 and 2, the first support part surface is either blue, the second support part surface is orange, the third support part surface is green; thus, depending on the combination, the optical fiber surface can be easily distinguished even if it is not colored, although the optical fiber surface can be more easily distinguished, or after coloring, the nylon jacket can be more easily distinguished.

The design of ingenious bundling part has been adopted in this application, has been solved and has been made the optical cable open fast shell, convenient distinguishing, do not need SZ transposition equipment, and a series of problems such as production can be accomplished on quick sheath extruding machine for the fibre core density of optical cable is bigger, the structure is compacter, the production speed is faster, the construction is more convenient, owing to do not need SZ equipment and corresponding input etc. to make the combined cost lower.

In the application, because the nylon sleeve is adopted to replace the bonding layer of the optical fiber ribbon, the compression resistance of the optical fiber ribbon is greatly improved, the abrasion resistance is obviously improved, and because the colored nylon sleeve is adopted, the identification capability is greatly improved, because the optical fiber ribbon specified in YD/T981 has quite thin bonding layer thickness, after the color is added into the polyacrylic resin, the fluidity is poorer, the drying is slower, the production speed of the optical fiber ribbon is extremely slow (usually only a few meters per minute) or the fiber is frequently removed (the production speed is ten meters per minute), so for the condition of the polyacrylic resin ribbon combination in the prior art, the polyacrylic resin adopts the natural color, and the identification of the optical fiber ribbon is greatly influenced; after the nylon material is adopted, the colored pigment can be conveniently added, the optical fiber ribbon is not subjected to fiber separation under the condition that the production speed is 40-80 m/min, the compression resistance of the optical fiber ribbon is improved by more than 65% through tests, and the abrasion resistance test is improved by one grade compared with the prior art; the surface smoothness of the optical fiber band is improved by more than 150%.

The application has the following main beneficial technical effects: the fiber core has the advantages of higher density, more compact structure, higher production speed, more convenient construction, easier resolution, stronger pressure resistance and the like, and lower comprehensive cost.

The above-mentioned embodiments are merely preferred technical solutions of the present invention, and should not be construed as limiting the present invention. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the invention.

Claims (10)

1. A cluster structure optical cable with a colorful nylon sleeve comprises an optical fiber (21), a nylon sleeve (22) and an outer sheath (3), wherein the optical fiber (21) is positioned in the nylon sleeve (22), and the nylon sleeve (22) is of a strip structure; the method is characterized in that: the optical cable with the compact bundling structure further comprises a bundling component (1), wherein the bundling component (1) is composed of a first bundling unit, a second bundling unit and a third bundling unit;

the first bundling unit is composed of a first supporting part (11), a first edge restraining part (111) and a first middle restraining part (112), one end of the first edge restraining part (111) is connected to the other end of the first supporting part (11), one end of the first middle restraining part (112) is connected to the surface of the first supporting part (11) between one end of the first supporting part (11) and the other end of the first supporting part (11), the first edge restraining part (111) is parallel to the first middle restraining part (112), the first edge restraining part (111) and the first middle restraining part (112) are both positioned on the same side of the first supporting part (11), and a first edge cavity (110) is formed between the first edge restraining part (111) and the first middle restraining part (112);

the second bundling unit is composed of a second supporting component (12), a second edge restraining component (121) and a second middle restraining component (122), one end of the second edge restraining component (121) is connected to the other end of the second supporting component (12), one end of the second middle restraining component (122) is connected to the surface of the second supporting component (12) between one end of the second supporting component (12) and the other end of the second supporting component (12), the second edge restraining component (121) is parallel to the second middle restraining component (122), the second edge restraining component (121) and the second middle restraining component (122) are both located on the same side of the second supporting component (12), and a second edge cavity (120) is formed between the second edge restraining component (121) and the second middle restraining component (122);

the third bundling unit is composed of a third supporting component (13), a third edge restraining component (131) and a third middle restraining component (132), one end of the third edge restraining component (131) is connected to the other end of the third supporting component (13), one end of the third middle restraining component (132) is connected to the surface of the third supporting component (13) between one end of the third supporting component (13) and the other end of the third supporting component (13), the third edge restraining component (131) is parallel to the third middle restraining component (132), the third edge restraining component (131) and the third middle restraining component (132) are both positioned on the same side of the third supporting component (13), and a third edge cavity (130) is formed between the third edge restraining component (131) and the third middle restraining component (132);

one end of the first supporting component (11), one end of the second supporting component (12) and one end of the third supporting component (13) are connected together; the first supporting part (11) is parallel to the third middle constraint part (132), a third accommodating cavity (133) is formed between the first supporting part (11) and the third middle constraint part (132), the second supporting part (12) is parallel to the first middle constraint part (112), a first accommodating cavity (113) is formed between the second supporting part (12) and the first middle constraint part (112), the third supporting part (13) is parallel to the second middle constraint part (122), and a second accommodating cavity (123) is formed between the third supporting part (13) and the second middle constraint part (122);

the nylon sleeve (22) is positioned in the first edge cavity (110), the second edge cavity (120), the third edge cavity (130), the first accommodating cavity (113), the second accommodating cavity (123) and the third accommodating cavity (133); the outer sheath (3) covers the bundling component (1);

the nylon sleeve (22) is made of nylon, and different nylon sleeves (22) have different colors.

2. The optical cable with a bundle structure of colored nylon covers as claimed in claim 1, wherein: only one nylon sleeve (22) is arranged in each first edge cavity (110), second edge cavity (120), third edge cavity (130), first accommodating cavity (113), second accommodating cavity (123) and third accommodating cavity (133).

3. The optical cable of bundle structure with colored nylon sheath as claimed in claim 1 or claim 2, wherein: the bundling component (1) is of an integrated structure.

4. The optical cable with the color nylon sheath in the bundle structure of claim 3, wherein: the first supporting part (11), the second supporting part (12) and the third supporting part (13) are mutually formed into 120 degrees in pairs.

5. The optical cable of claim 4, wherein the bundle structure includes a colored nylon sheath, and the optical cable further includes: the cross section of the outer edge of the bundling component (1) is a regular hexagon.

6. The optical cable with the color nylon sheath in the bundle structure of claim 5, wherein: the cross sections of the first edge cavity (110), the second edge cavity (120), the third edge cavity (130), the first accommodating cavity (113), the second accommodating cavity (123) and the third accommodating cavity (133) are parallelograms.

7. The optical cable with a bundle structure of colored nylon covers as claimed in claim 1, wherein: a plurality of nylon sleeves (22) which are sequentially stacked are arranged in each first edge cavity (110), each second edge cavity (120), each third edge cavity (130), each first accommodating cavity (113), each second accommodating cavity (123) and each third accommodating cavity (133); each nylon sleeve (22) is internally provided with a plurality of optical fibers (21) which are not in contact with each other and are distributed linearly.

8. A cluster structure optical cable with a colorful nylon sleeve comprises an optical fiber (21), a nylon sleeve (22) and an outer sheath (3), wherein the optical fiber (21) is positioned in the nylon sleeve (22), and the nylon sleeve (22) is of a strip structure; the method is characterized in that: the bundling component (1) is composed of a first bundling unit, a second bundling unit, a third bundling unit and a fourth bundling unit;

the first bundling unit is composed of a first supporting component (11), a first edge restraining component (111) and a first middle restraining component (112), one end of the first edge restraining component (111) is connected to the other end of the first supporting component (11), one end of the first middle restraining component (112) is connected to the surface of the first supporting component (11) between one end of the first supporting component (11) and the other end of the first supporting component (11), the first edge restraining component (111) is parallel to the first middle restraining component (112), the first edge restraining component (111) and the first middle restraining component (112) are both positioned on the same side of the first supporting component (11), and a first edge cavity (110) is formed between the first edge restraining component (111) and the first middle restraining component (112);

the second bundling unit is composed of a second supporting component (12), a second edge restraining component (121) and a second middle restraining component (122), one end of the second edge restraining component (121) is connected to the other end of the second supporting component (12), one end of the second middle restraining component (122) is connected to the surface of the second supporting component (12) between one end of the second supporting component (12) and the other end of the second supporting component (12), the second edge restraining component (121) is parallel to the second middle restraining component (122), the second edge restraining component (121) and the second middle restraining component (122) are both located on the same side of the second supporting component (12), and a second edge cavity (120) is formed between the second edge restraining component (121) and the second middle restraining component (122);

the third bundling unit is composed of a third supporting component (13), a third edge restraining component (131) and a third middle restraining component (132), one end of the third edge restraining component (131) is connected to the other end of the third supporting component (13), one end of the third middle restraining component (132) is connected to the surface of the third supporting component (13) between one end of the third supporting component (13) and the other end of the third supporting component (13), the third edge restraining component (131) is parallel to the third middle restraining component (132), the third edge restraining component (131) and the third middle restraining component (132) are both positioned on the same side of the third supporting component (13), and a third edge cavity (130) is formed between the third edge restraining component (131) and the third middle restraining component (132);

the fourth bundling unit is composed of a fourth supporting component (14), a fourth edge restraining component (141) and a fourth middle restraining component (142), one end of the fourth edge restraining component (141) is connected to the other end of the fourth supporting component (14), one end of the fourth middle restraining component (142) is connected to the surface of the fourth supporting component (14) between one end of the fourth supporting component (14) and the other end of the fourth supporting component (14), the fourth edge restraining component (141) is parallel to the fourth middle restraining component (142), the fourth edge restraining component (141) and the fourth middle restraining component (142) are both positioned on the same side of the fourth supporting component (14), and a fourth edge cavity is formed between the fourth edge restraining component (141) and the fourth middle restraining component (142);

one end of the first supporting component (11), one end of the second supporting component (12), one end of the third supporting component (13) and one end of the fourth supporting component (14) are connected together; the first supporting part (11) is parallel to the fourth middle constraint part (142), a fourth accommodating cavity is formed between the first supporting part (11) and the fourth middle constraint part (142), the second supporting part (12) is parallel to the first middle constraint part (112), a first accommodating cavity (113) is formed between the second supporting part (12) and the first middle constraint part (112), the third supporting part (13) is parallel to the second middle constraint part (122), and a second accommodating cavity (123) is formed between the third supporting part (13) and the second middle constraint part (122); the fourth supporting component (14) is parallel to the third middle constraint component (132), and a third accommodating cavity (133) is formed between the fourth supporting component (14) and the third middle constraint component (132);

the nylon sleeve (22) is positioned in the first edge cavity (110), the second edge cavity (120), the third edge cavity (130), the fourth edge cavity, the first containing cavity (113), the second containing cavity (123), the third containing cavity (133) and the fourth containing cavity; the outer sheath (3) covers the bundling component (1);

the nylon sleeve (22) is made of nylon, and different nylon sleeves (22) have different colors.

9. The optical cable with a bundle structure of colored nylon covers of claim 8, wherein: the first supporting part (11) and the second supporting part (12) are perpendicular to each other, the second supporting part (12) and the third supporting part (13) are perpendicular to each other, the third supporting part (13) and the fourth supporting part (14) are perpendicular to each other, the fourth supporting part (14) and the first supporting part (11) are perpendicular to each other, the first supporting part (11) and the third supporting part (13) are in a straight line, and the second supporting part (12) and the fourth supporting part (14) are in a straight line.

10. The optical cable of claim 8 or claim 9, wherein the bundle structure cable has a colored nylon sheath, and comprises: the cross section of the outer edge of the bundling component (1) is circular.

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