RU188788U1 - Fiber Coil - Google Patents

Abstract

The utility model relates to the field of communication and can be used primarily for laying a fiber optic cable between communication objects or to prevent rupture or inclusion of an additional section into the fiber optic communication line. The required technical result, which is to increase the reliability of storage of the fiber optic cable while simultaneously ensuring increased efficiency when laying the fiber optic cable, is achieved in a device containing a hollow cylindrical drum for winding the fiber optic cable, two round flanges attached to the end sections of the hollow cylindrical drum, a slot for threading the end part of the fiber optic cable and the means for winding the end part of the fiber optic cable placed in the floor m cylindrical drum and made with the possibility of holding the end of the end part of the fiber optic cable, equipped with a contact element, moreover, the slot for threading the end part of the fiber optic cable is made in the wall of the hollow cylindrical drum at one of the round flanges, the end of the hollow cylindrical drum near which is provided with an end cap, and On the other round flange, there are holes along its edges, made with the possibility of mounting in them the end of the initial part of a fiber-optic cable equipped with a contact nym element. 5 hp f-ly, 4 ill.

Description

The utility model relates to the field of communication and can be used primarily for laying a fiber optic cable between communication objects or to prevent rupture or inclusion of an additional section into the fiber optic communication line.

Famous coil for optical fiber [RU 2155154, C2, B65N 75/14, 08.27.2000], containing a drum for winding an optical fiber, which is covered with a gasket with a given thickness to protect the optical fiber from impacts, the first round flange located on the first end of the drum and a second round flange located at the opposite end of the drum with the possibility of supporting the drum, as well as a slit for pulling the end part of the wound optical fiber, made on the first round flange, the upper surface of which is located in from the outside diameter of the drum at a distance that is equal to or greater than twice the thickness of the spacer.

The disadvantage of this technical solution is relatively low reliability, since, in particular, when refueling the end of the optical fiber through the slit, the fiber touches sharp rectangular faces of the slit and when winding in automatic mode, the optical fiber may break, which will lead to rejection of the entire fiber volume on the coil. In addition, in the manufacture of the coil using a split drum, one part of which is combined with the first flange, and the second part of the drum with the second flange, that with any manufacturing technology along the cutting line remains a seam, affecting the uniform winding of the optical fiber.

The closest in technical essence to the proposed is a coil for storing optical fiber [RU 152391, U1, B65N 75/14, 05/27/2015], containing a drum for winding optical fiber, a gasket located on the outer surface of the drum, two round flanges located on the ends of the drum, the slit for pulling the final part 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, stretched Through the slit, at the same time, on the outer surfaces of the first and second round flanges are stiffeners, the slit is made in the shape of a truncated tetrahedral pyramid, with the apex directed towards the drum two opposite sides of the pyramid have a circular shape in cross section, one of which completely coincides with the outer surface gaskets fixed on the drum, and the other two opposite sides of the pyramid are made in the form of rectangles, and an additional means for additional winding of the optical fiber is nano in the form of a hollow cylinder with two steps in axial section, and a smaller step is made with teeth that fit into the grooves between the stiffeners of the first flange, and the stiffeners themselves of the first flange are placed in the slots between the teeth of the additional means, the smaller step of the additional means is located on level with the gasket relative to the axis of the coil, and its thickness is equal to the thickness of the gasket.

When using such a coil construction, the end of the optical fiber (fiber-optic cable) is pulled through the slot on the drum side, a coil is made on an additional tool and fixed with a label (for example, glued), and after winding the optical fiber, the second end is fixed on one of the flanges and glued with a second label that can cause damage both during storage and when laying the fiber optic cable. This leads to a relatively low reliability of use of a coil for storing and laying fiber optic cable.

In addition, the well-known design of the coil does not allow the inclusion of an additional section of the fiber-optic cable in the fiber-optic communication line. In order to do this, it is necessary to install contact elements, for example, connectors or coupling halves, on the free ends of the fiber-optic cable in the course of the installation, and to make connection with external contact elements. In the field, this is difficult and leads to an unreliable connection, which also reduces the reliability of the use of the coil for storing and laying the fiber optic cable.

The technical problem solved by the utility model is aimed at creating a coil for a fiber optic cable that provides relatively high reliability of storing the fiber optic cable on a coil and a relatively high efficiency of its use when laying a fiber optic cable between communication objects or to prevent rupture or the inclusion of an additional section of fiber optic cable in the fiber optic cable. communication line. This ensures the expansion of the arsenal of technical tools used for the storage and laying of fiber optic cable.

The required technical result is to increase the reliability of storage of the fiber-optic cable while ensuring conditions for increasing efficiency when laying the fiber-optic cable.

The problem is solved, and the required technical result is achieved by the fact that, in a coil for a fiber optic cable containing a hollow cylindrical drum for winding a fiber optic cable, two round flanges attached to the end portions of the hollow cylindrical drum, threading the end portion of the fiber optic cable and means for winding the end portion of the fiber optic cable, according to the utility model, means for the winding end portion of the optical fiber cable is placed in a hollow cylindrical drum and is configured to hold the end of the end part of a fiber-optic cable equipped with a contact element, the slot for threading the end part of the fiber-optic cable is made in the wall of a hollow cylindrical drum at one of the round flanges; , and on the other round flange there are holes along its edges, made with the possibility of mounting in them the end of the initial part of the optical fiber cable, aschennogo contact element.

In addition, the required technical result is achieved by the fact that the diameter of the hollow cylindrical drum is 82 mm.

In addition, the required technical result is achieved by the fact that the length of the slit for threading the final part of the fiber-optic cable is mainly 20 mm. for connectors and 32 mm for half couplings.

In addition, the required technical result is achieved by the fact that the ends of the hollow cylindrical drum are made protruding on the outer sides of the round flanges and are provided with sidewalls that are rigidly fastened to each other and have central holes that are made with the possibility of installation and free rotation in them of the corresponding ends of the hollow cylindrical the drum.

In addition, the required technical result is achieved by the fact that the sidewalls rigidly fastened to each other are provided with a drive that provides rotation of a coil for an optical fiber cable.

The drawing shows:

- in fig. 1 - coil for fiber optic cable together with the sidewalls, which are rigidly fastened together and have central holes, which are made with the possibility of installation and free rotation in them of the corresponding ends of the hollow cylindrical drum, general view;

in fig. 2 - coil for fiber optic cable with sidewalls rigidly fastened together, side view;

- in fig. 3 - means for winding the final part of the fiber optic cable;

- in fig. 4 - coil for fiber optic cable with sidewalls rigidly fastened to each other and the drive ensuring its rotation, general view.

In the drawing indicated:

1 - hollow cylindrical drum;

2 - round flanges;

3 - slot (hole in the wall of the hollow cylindrical drum);

4 - means for winding the final part of the fiber optic cable;

5 - end cap;

6 - holes made with the possibility of mounting in them the initial end of the fiber-optic cable;

7 - sidewalls;

8 - rods;

9 - central holes in the sidewalls;

10 - drive.

The coil for the fiber optic cable contains a hollow cylindrical drum 1 for winding the fiber optic cable, two round flanges 2 attached to the end sections of the hollow cylindrical drum 1, a slot 3 for threading the end part of the fiber optic cable and a means 4 for winding the end part of the fiber optic cable, moreover, means 4 for winding the final part of the fiber optic cable placed in a hollow cylindrical drum 1 and made with the possibility of holding the end of the final part of the fiber optic cable, equipped with Acting element, slot 3 for threading the final part of the fiber optic cable is made in the wall of the hollow cylindrical drum 1 at one of the round flanges 2, the end of the hollow cylindrical drum 1 is equipped with an end cap 5, and at the other round flange 2 there are holes 6 at its edges the possibility of mounting in them the end of the initial part of the fiber optic cable, equipped with a contact element.

The diameter of the hollow cylindrical drum 1 is preferably equal to 82 mm, which ensures the permissible bending of the fiber-optic cable without disturbing the value of the signal attenuation coefficient and its damage. The width of the slit 3 for threading the final part of the fiber optic cable is preferably 20 mm or 32 mm, which ensures the free passage of the fiber optic cable with a connector or coupling half, respectively, without an excessive increase in its size. The means 4 for winding the end part of the fiber optic cable is made with the possibility of mounting the fiber optic cable in it, the end of which is provided with a contact element (connector or coupling half) and can be made in the form of a narrow coil with clamp or clip elements of the end (for example, spring) fiber optic cable with a contact element .

The holes 6 at the edges of the circular flange 2 for mounting the end of the initial part of the fiber optic cable in them are made with the possibility of mounting the fiber optic cable in them, the end of which is provided with a contact element (connector or coupling half), for which the holes can be made, for example, blank for size installation of contact elements in them.

The coil itself can be made installed in the frame for its storage and carrying, for which the ends of the hollow cylindrical drum 1 are made protruding on the outer sides of the round flanges 2 and are provided with side 7, which are rigidly fastened together by rods 8 and have central holes 9, which are made with possibility of installation and free rotation in them, for example using bearings, corresponding to the ends of a hollow cylindrical drum 1. For manual winding and unwinding of the optical fiber, rigidly bonded Do a sidewall 7 can be provided with a handle actuator 10 and the pinion gear, providing manual rotation coil for a fiber optic cable.

The coils for the fiber optic cable are used as follows.

When the fiber optic cable is wound, the end cover 5 is opened and the means 4 for winding the end part of the fiber optic cable are removed. The fiber optic cable is mounted in it, the end of which is provided with a connector or coupling half and can be made in the form of a narrow coil with clamp or clip elements of the fiber optic cable end. The fiber-optic cable passed through the slot 3, the end of which, as a rule, is equipped with a connector or coupling half, is fastened in it and a small amount of the fiber-optic cable is wound, for example, 3-4 turns on a narrow coil made along the length of the inner cavity of the drum 1. Next, tool 4 is inserted inside the drum 1, which is closed by the end cap 5. Next, you can wind the cable automatically or with the use of the actuator 10, equipped with a gear knob and a drum gear interacting with it. The coils of the fiber optic cable should be evenly distributed over the entire surface of the drum in dense rows.

After the end of the winding should fix the connector or coupling half at the initial end of the fiber optic cable in one of the holes 6 of the round flange 2.

When unwinding the fiber optic cable, the connector or the coupling half at its initial end should be connected at the starting point of the communication line. At any point of the route, the end cap 5 can be removed and a connection to the communication line at this point of the other end of the fiber optic cable is promptly made, which is convenient for building temporary connections, reserving faulty sections of communication lines, etc.

As follows from the characteristics of the design and example of the use of the proposed coil, it is characterized by increased reliability during storage and use for laying fiber optic cable, since its final section is stored inside a hollow cylindrical drum, and the initial end is in a hole in a circular flange.

In addition, the well-known coil design allows you to quickly include an additional section in the fiber-optic communication line, since it is adapted for storing the fiber-optic cable, in which the start and end ends of which are equipped with connectors or coupling halves and the fiber-optic cable can be turned on at any moment of its installation.

Thus, in the proposed device at the same time provides conditions for improving the reliability and efficiency of use of the coil for storing the fiber optic cable and its installation. This expands the arsenal of technical tools used for this purpose.

Claims (6)

1. Coil for fiber optic cable, containing a hollow cylindrical drum for winding the fiber optic cable, two round flanges attached to the end sections of the hollow cylindrical drum, a slot for threading the end portion of the fiber optic cable and means for winding the end portion of the fiber optic cable, characterized in that the means for winding the final part of the fiber optic cable is placed in a hollow cylindrical drum and is arranged to hold the end of the final part of the fiber optic cable, equipped A contact element, a slot for threading the final part of the fiber optic cable is made in the wall of a hollow cylindrical drum at one of the round flanges, the end of a hollow cylindrical drum near which is equipped with an end cap, and at the other round flange at its edges there are holes that can be fixed the end of the initial part of the fiber optic cable, equipped with a contact element. 2. Coil according to claim. 1, characterized in that the diameter of the hollow cylindrical drum is 82 mm. 3. Coil according to claim. 1, characterized in that the width of the slot for threading the final part of the fiber optic cable is 20 mm. 4. Coil according to claim. 1, characterized in that the width of the slit for threading the final part of the fiber optic cable is 32 mm. 5. Coil according to claim. 1, characterized in that the ends of the hollow cylindrical drum are made protruding on the outer sides of the round flanges and are provided with sidewalls that are rigidly fastened to each other and have central openings that are configured to install and free rotation in them of the corresponding ends cylindrical drum. 6. Coil according to Claim. 1 or 5, characterized in that the sidewalls rigidly fastened to each other are provided with a drive ensuring rotation of the coil for the optical fiber cable.

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