CS260791B1 - Optical cable with combined protective layer - Google Patents

Abstract

The solution relates to the optical construction free fiber optic cable in the protective layer. The goal of the solution is to improve mechanical properties, especially increased mechanical tensile strength as well as improving and simplifying connectoring these optical cables. nature The solution lies in being impregnated supporting glass cords are circumferentially located protective tube of plastic material parallel to each other and at the point of contact of the jacket and at least one of the pair remains- of the combined protective components the layer is an adhesive bonded. Impregnated glass cords are stored along the circumference of the protective tube either adjacent one to the other, while the sticky bond is formed between the supporting glass surfaces the cords and the inner wall of the shell; \ tor. \ t in the latter case they are stored symmetrically into a section separated by gaps and a solid, sticky connection is created by ipotom between the surface of the protective tube and the inner wall of the shell in the gap space while impregnated carrier glass cords are part of their surface firmly, sticky associated with the inner wall of the mantle.

Description

BACKGROUND OF THE INVENTION The present invention relates to the construction of fiber optic cables loosely embedded in a protective layer, which are used in optoelectronic and optical fiber optics. telecommunication systems. The aim of the solution is to improve the mechanical properties of the fiber optic cable, in particular to increase the mechanical tensile resistance as well as to improve and simplify the design.

The presently known fiber optic cable designs, which provide increased mechanical protection of the optical fiber, can basically be divided into two groups.

The first group are optical cables with the so-called. a sealed protective layer consisting of a filler-bearing protective layer of carrier glass fibers or cords, which are placed close to the periphery of the optical fiber secondary protection. j

The second group are optical cables with the so-called, free protection, where the filler-bearing protective layer is formed as a slit, respectively. a tube in which the free guided optical fiber is provided with secondary protection.

As a rule, only the outer sheath of the cable is formed above the filling-carrying protective layer in both groups.

A disadvantage of both of these solutions is that the protective layer, the cable is not fixed with. sheathing, which is particularly promising when applying PVC as sheathing material. Under mechanical stress, both on tension and on bending, relatively high frictional forces arise as a result of the displacement of the protective layer against the sheaths. Moreover, when the sheath and the protective layer are not joined together, the resistance of the optical cable to the axial rupture force is less than in the case of their mutual fixation. During bending, the position of the non-fixed carrier glass cords is changed and their spillage occurs.

The above-mentioned disadvantages are overcome by the solution according to the invention. Its essence is that the impregnated carrier glass cords are laid around the perimeter of the protective tube of plastic material such that at the point of contact of the sheath and at least one of the two remaining components of the combined protective layer a adhesive bond is formed by the adhesive. parallel to each other.

The impregnated glass cords are laid around the perimeter of the protective tube adjacent to each other and are bonded to the inner wall of the casing by means of glue.

It is a further object of the invention that the impregnated glass cords are arranged symmetrically into sections separated by gaps around the circumference of the protective tube. In the space gap between the surface of the protective tube and the inner wall of the shell is a layer of glue, while the ^{1-impregnated} glass cords are part of its surface with adhesive associated with the inner wall of the shell.

It is an advantage of the solution according to the invention that the resistance of the optical cable to axial stress is increased between the sheath and the combined protective layer by providing a rigid connection. There is no rearrangement of the glass cords, which form part of the combined protective layer, when the optical cable is bent and twisted. without having to be entangled. They can therefore be placed parallel to each other, which substantially speeds up the manufacturing process.

The material composition of the adhesive digestion and PVC sheath makes it possible to form a firm connection in one operation when extruding the outer sheath. This also has a favorable effect on the continuity and speed of production. The fiber optic cable connector with the proposed combined protective layer design does not require separate separation of the carrier and protective elements, but the assembly comprising the combined protective layer and sheath can be self-clamping into the connector.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a fiber optic cable with a combined protective layer wherein the carrier glass cords are adjacent to each other along the circumference of the protective tube; FIG. 2 is a detail of the formed rigid joint between the sheath and the carrier glass cords of the combined protective layer, and FIG. 3 is a cross-sectional view of the fiber optic cable where the carrier glass cords are positioned symmetrically with gaps around the circumference of the protective tube. ·

In a first embodiment, an optical fiber 1 with tight secondary protection, e.g. made of 0.6 mm TEFZEL plastic is contained in a protective tube 2 made of polyethylene with an inner diameter of 1.6 mm and an outer diameter of 2.2 mm. On the outer periphery of the protective tube 2, support glass cords 3, which are impregnated with an adhesive PVC dispersion, are disposed on the periphery, parallel to one another. Above the supporting glass cords 3 there is a circumferentially formed PVC sheath 4. Between the carrier glass cords 3 and the sheath 4, a rigid, adhesive bonding is formed by an adhesive 5 which prevents them from sliding relative to each other as well as the combined protective layer and sheath 4. The glass cords 3 do not spill under bending or bolt stress. The outer diameter of the combined protective layer is 3.3 mm and the outer diameter of the entire fiber optic cable is 4.4 mm.

In a second embodiment, the fiber optic cable 1 with primary and secondary protection is 0.6 mm in external diameter. Above this optical fiber 1 is formed a combined protective layer consisting of a protective tube 2 having an inner diameter of 1.6 mm and an outer diameter of 2.2 mm. On its periphery, three strips of impregnated carrier glass cords 3 are arranged parallel to each other and symmetrically with the gaps.

They are impregnated with a sticky PVC dispersion.

6 0 5

Above the combined protective layer is a circumferentially formed polyurethane sheath 4. In the gaps between the strips of the carrier glass cords 3, a rigid, adhesive bonding of the sheath 4 and the protective tube 2 is formed. A rigid, adhesive bond is also formed between a portion of the surface of the glass cords 3 and the inner wall of the sheathing. .

In both cases, the advantage of the solution according to the invention is that at the point of cut of the cable, the padding can be easily detached from the sheath 4 and used for eventual separate attachment in the connector, leaving a strong, adhesive connection between the layer and sheath. This rigid, sticky bond also resists lowered and elevated temperatures ranging from -15 to + 70 ° C.

The solution according to the invention can also be advantageously used in the production of ribbon optical cables.

Claims (3)

Optical cable with a combined protective layer made of a protective tube and supporting glass cords, characterized in that the impregnated carrier glass cords (3) are laid along the circumference of the protective plastic tube (2) parallel to each other and at the point of contact of the sheath (4) and at least one of the two remaining components of the combined protective layer is a rigid bond formed by the adhesive (5). Optical cable according to claim 1, characterized in that the impregnated glass cords (3) are laid around the circumference of the protective tube ynAlez (2) adjacent to each other and connected by a part of their surface with adhesive (5) to the inner wall of the sheath (4). . Optical cable according to Claim 1, characterized in that the impregnated glass cords (3) are arranged symmetrically in sections, separated by gaps, around the circumference of the protective tube (2), and in the space between the surface of the protective tube (2) and the inner wall. The sheath (4) is an adhesive layer (5), while the impregnated glass cords (3) are part of their surface bonded by the adhesive (5) to the inner wall of the sheath (4). 1 sheet of drawings