RU152391U1 - OPTICAL FIBER STORAGE COIL - Google Patents

Abstract

1. An optical fiber storage coil comprising a drum for winding optical fiber, a gasket located on the outer surface of the drum, two circular flanges located at the ends of the drum, a slot for pulling the end of the wound optical fiber made on the first flange, and additional means for additional winding located on the first flange with the possibility of winding part of the optical fiber elongated through the slot, while on the outer surfaces of the first and second round flanges stiffening ribs are laid, characterized in that said slit is made in the form of a truncated tetrahedral pyramid with its apex directed towards the drum, while the two opposite sides of the pyramid have a circular shape in cross section, one of which completely coincides with the outer surface of the gasket fixed to the drum, and two other opposite faces of the pyramid are made in the form of rectangles, and additional means for additional winding of the optical fiber is made in the form of a hollow cylinder with two steps axial section, the smaller step being made with teeth that fit into the grooves between the stiffening ribs of the first flange, and the stiffening ribs of the first flange themselves are placed in the grooves between the teeth of the additional means, while the smaller stage of the additional means is located on the same level with the gasket relative to the axis of the coil, and its thickness is equal to the thickness of the gasket. 2. The coil according to claim 1, characterized in that the drum, two round flanges with a slot in one of them are made as a unit in the form of a molded structure. The coil according to claim 1 or 2, distinguish

Description

The coil for storing optical fiber refers to the field of storage and transportation of electrical wires and other lengthy materials, is intended primarily for storage and transportation of optical fiber and can be used to store thin lengthy materials in various areas of the national economy.

Known designs of coils for storing optical fiber, for example, US patent No. 5702066, USSR copyright certificate No. 485369, which contain a cylindrical drum, two side flanges, a gasket covering the cylindrical drum, a slot on one of the flanges through which the end part of the optical fiber is pulled. However, optical fiber length requirements are currently being raised. Unfortunately, the known coils do not allow sufficiently to hold a long optical fiber. If a long optical fiber is wound around a coil, then the end parts of the flanges become curved. This, in turn, leads to bending and damage to the optical fiber. In addition, severe deformation of the coil can occur at certain temperatures due to the higher weight of the optical fiber. Moreover, handling the coil becomes difficult.

Additional problems are associated with the slot for pulling the optical fiber and the gasket, since the difference in size in height between the slot for pulling the optical fiber and the gasket is very small. And the optical fiber can engage between the gasket and the inner side surface of the flange.

Also known is a coil for storing optical fiber (see patent RU No. 2155154 of 08.27.2000), in which some of the disadvantages are eliminated. It contains a drum for winding optical fiber, a spacer located on the outer surface of the drum, two circular flanges located at the ends of the drum, a slot for pulling the end of the wound optical fiber made on the first flange, and additional means for additional winding located on the first flange with the possibility of winding a portion of the optical fiber elongated through the slot, and stiffening ribs are located on the outer surfaces of the first and second round flanges, with the top turning NOSTA slit for drawing an optical fiber located on the external diameter of the drum at a distance that is equal to or greater than twice the thickness of the spacer. This coil is taken as a prototype.

It has the following disadvantages:

- when refueling the end of the optical fiber through the specified slit, the fiber touches the sharp rectangular faces of the slit and when winding in automatic mode, the optical fiber can break off, which will lead to the rejection of the entire volume of fiber on the spool;

- the design uncertainty of the additional means for additional winding of the optical fiber when manually pulling the end of the fiber from the slit of the first flange and when a fiber loop is formed inside the additional means, fiber breakage can also occur;

- real coils made according to the patent prototype have a split drum, one part of which is aligned with the first flange, and the second part of the drum with the second flange, which, with any manufacturing technology, a seam remains along the cut line, which affects the uniformity of winding of the optical fiber, which in turn queue leads to negative consequences. Laying only partially solves the problem of uneven winding.

The technical problem solved by the utility model is aimed at eliminating the breakage of the optical fiber during refueling and winding, ensuring uniformity of winding and simplifying the manufacturing technology of the coil.

The solution to this problem lies in the fact that the coil for storing optical fiber contains a drum for winding optical fiber, a gasket located on the outer surface of the drum, two circular flanges located at the ends of the drum, a slot for pulling the end of the wound optical fiber made on the first flange and additional means for additional winding located on the first flange with the possibility of winding part of the optical fiber elongated through the slot, while on external The stiffeners are located on the surfaces of the first and second round flanges, and the specified slit is made in the form of a truncated tetrahedral pyramid with its apex directed towards the drum, while the two opposite sides of the pyramid have a circular shape in cross section, one of which completely coincides with the outer surface of the gasket, and two other opposite faces of the pyramid are made in the form of rectangles, and additional means for additional winding of the optical fiber is made in the form of a hollow cylinder with two steps in axial section, the smaller step being made with teeth that enter the grooves between the stiffening ribs of the first flange, and the stiffening ribs of the first flange themselves are placed in the grooves between the teeth of the additional tool, while the thickness of the smaller step of the hollow cylinder of the additional tool corresponds to the thickness of the gasket. The coil in the drum, two round flanges with a slot in one of them is made as a single unit in the form of a molded structure, and the material of the coil used is a polymeric material, while the side surfaces of the slots at the inlets / outlets of the first flange are rounded with a convex direction inside the slit, and the angle between the rectangular side faces of the pyramidal slit is 156 °, and the tooth height and the depth of the trough of the additional means for additional winding of the optical fiber are equal to the height of the stiffener flange.

The essence of the utility model is illustrated by drawings, where in FIG. 1 is a side view of the coil; FIG. 2 is a view B of the opening of FIG. one; in FIG. 3 is a section Α-A of FIG. 1 for a reel assembly with a drum and flanges made in a single cast structure, FIG. 4 is a section BB of FIG. 1, in FIG. 5 is a view of the slit in section AA of FIG. 2, in FIG. 6 is a cross-section A′-A ′ of the coil assembly with a drum and flanges made in a separate embodiment, in FIG. 7 is a side view of the additional means, in FIG. 8 is a section CC in FIG. 7. In the drawings, the following notation:

1 - the first flange with a part of the drum; 2 - the second flange with the second part of the drum; 3 - gasket; 4 - optical fiber; 5 - gap; 6 - an additional tool in the form of a hollow cylinder with two steps in axial section; 6-1 - the first stage of an additional tool; 6-2 - the second smaller stage of the additional funds, made at the same time with the first stage; 6-3 - teeth at a lower stage of an additional tool; 6-4 - grooves between the teeth at a lower stage of an additional tool; 7 - stiffeners on the first flange; t is the thickness of the gasket equal to the thickness of a smaller step of an additional tool; t1 is the thickness of the flanges; a, b are the sizes of the sides of the bases of the slit in section BB; α is the angle of inclination of the rectangular faces of the pyramidal gap; Dk, D1, D2 - respectively, the outer diameter of the flanges, the outer and inner diameters of the lower stage of the additional means, while (D1-D2) / 2 = t; h is the height of the tooth, the depth of the trough of a smaller stage of an additional tool; L is the total length of the coil; R is the radius of curvature at the entrance of the slit.

The coil can be made as collapsible (Fig. 6), and cast in a single housing (Fig. 3). In the second case, a special mold is made and a coil is manufactured by known casting methods. In this case, the coil contains only three elements: the body itself, the gasket and an additional light tool, inserted with its teeth between the stiffeners of the first flange, pre-lubricated with glue.

Pre-dressing of the end of the optical fiber is as follows. The end of the optical fiber is pulled through the slot 5 from the side of the drum, a turn is made on an additional tool 6 and fixed with a label (for example, glued). After winding the optical fiber, its second end is fixed on one of the flanges and glued with a second label.

The slit is made in the form of a truncated tetrahedral pyramid with its apex pointing towards the drum, while the two opposite faces of the pyramid have a circular shape in cross section, one of which completely coincides with the outer surface of the gasket attached to the drum, and the other two opposite faces of the pyramid are made in the form of rectangles , can significantly reduce the breaks of a thin optical fiber when refueling it in a coil. This quality is enhanced by the implementation of a part of additional means for additional winding of the optical fiber with a thickness equal to the thickness of the strip and located so that their outer surfaces are at the same level relative to the axial line of the coil. Both constructive solutions together solve the problem of eliminating optical fiber breakage.

The implementation of the main elements (drum and flanges) in the form of a single cast design allows us to simplify the manufacturing process, reduce the time and cost of manufacture, and ensure uniform winding of the fiber coils between the coil flanges.

ORPLAST LLC developed coil designs with separate flanges and in a single cast structure, in particular for storing 30 km fiber optic fiber with dimensions Dk = 235 mm, L = 120 mm, t = 3 mm, t1 = 8 mm, a = 96 mm, b = 24 mm and α = 156 °. As the material of the coil, a polymeric material (polystyrene grade UPS825) was used. Coils pass operational tests.

Claims (6)

1. An optical fiber storage coil comprising a drum for winding optical fiber, a gasket located on the outer surface of the drum, two circular flanges located at the ends of the drum, a slot for pulling the end of the wound optical fiber made on the first flange, and additional means for additional winding located on the first flange with the possibility of winding part of the optical fiber elongated through the slot, while on the outer surfaces of the first and second round flanges stiffening ribs are laid, characterized in that said slit is made in the form of a truncated tetrahedral pyramid with its apex directed towards the drum, while the two opposite sides of the pyramid have a circular shape in cross section, one of which completely coincides with the outer surface of the gasket fixed to the drum, and two other opposite faces of the pyramid are made in the form of rectangles, and additional means for additional winding of the optical fiber is made in the form of a hollow cylinder with two steps axial section, the smaller step being made with teeth that fit into the grooves between the stiffening ribs of the first flange, and the stiffening ribs of the first flange themselves are placed in the grooves between the teeth of the additional means, while the smaller stage of the additional means is located on the same level with the gasket relative to the axis of the coil, and its thickness is equal to the thickness of the gasket. 2. The coil according to claim 1, characterized in that the drum, two round flanges with a slot in one of them are made as a single unit in the form of a molded structure. 3. The coil according to claim 1 or 2, characterized in that the material of the coil used polymer material. 4. The coil according to claim 1, characterized in that the side faces of the slit at the inlet of the first flange have roundings directed by a bulge inside the slit. 5. The coil according to claim 1 or 4, characterized in that the angle between the rectangular side faces of the pyramidal gap is 156 °. 6. The coil according to claim 1, characterized in that the height of the tooth and the depth of the trough of the additional means for additional winding of the optical fiber are equal to the height of the stiffening ribs of the first flange.

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