RU209710U1 - fiber optic distributor - Google Patents

Abstract

The utility model relates to equipment for the installation of communication lines, namely to the structures of distribution cabinets designed for switching fiber optic cables. The technical result of the utility model is to improve the maintainability of the fiber-optic distributor. A fiber-optic distributor, which includes a housing on which a mounting unit for rotary modules is installed, consisting of a support rod and modules mounting plates, while the rotary modules are attached to the support rod using clamps, and the housing is installed in the support chassis and is equipped with a housing extension mechanism. 5 ill.

Description

The utility model relates to equipment for the installation of communication lines, namely to the structures of distribution cabinets designed for switching fiber optic cables.

The prior art devices for switching fiber optic cables.

In particular, the technical solution is known according to the patent for the invention of the Russian Federation No. 2371743 "Modular cable box for fiber-optic communication lines", IPC G02B 6/44, publ. 03/27/2009.

The known device contains a support frame on which rotary plates (partitions) are fixed, on which cassettes with splices of optical fibers are installed, and each rotary plate is made L-shaped, its axis of rotation is perpendicular to the plane of one part of the L-shaped plate, and the mounting area cassette with splices of optical fibers is located on the other part of the plate.

The disadvantage of the known design is that its scope is limited by the possibility of fastening the cassette block to the mounting rack exclusively along its rear wall, since in the case of fastening the cassette block along its front wall, the rotation of the cassette block will be limited on one side by the allowable bending radius of the optical fibers, and on the other hand, the available distance from the front edge of the cassette unit to the switch cabinet door. That is, if the cassette block is attached to the mounting rack along its front wall while the cassettes are rotated around the axis (during their installation or maintenance), this will inevitably lead to an unacceptable bending of the optical fibers, the cables placed in them and to their damage. Therefore, in relation to the known design, mounting the cassette block to the mounting rack along its front wall is impossible.

Closest to the claimed technical solution is the device according to the utility model patent of the Russian Federation No. 133624 "Block modules of the fiber-optic communication line", IPC G02B 6/44, publ. 10/20/2013.

The known device comprises a L-shaped support frame, upper and lower bases, modules mounted on the frame (cassettes with fiber optic cable) placed on partitions rigidly fixed to the frame. Each cassette has a section for laying the input multifiber cable, a mounting section for laying the cable fibers to the section for accommodating the excess length of the cable fibers. Each cassette has an elongated shape and is installed on a common axis between the bases of the frame with the possibility of rotation and removal from the axis, and the frame, while the axis is located in the hole of each partition and in the groove of each cassette open from the side. In the groove of each cassette there is a pair of elastic retainers made in one piece with the cassette. The latches interact with the axle.

The disadvantage of the prototype is also that its scope is limited by the ability to mount the block of modules to the mounting rack exclusively on its rear wall. That is, the well-known technical solution is not applicable in cases where the cassette block is attached to the mounting rack along its front wall, since the rotation of the module block will be limited on the one hand by the allowable bending radius of the optical fibers, and on the other hand, by the actual distance from the front edge of the module block to the cabinet door.

The technical problem to be solved is the inconvenience of mounting and maintaining the fiber-optic distributor, caused by the impossibility of attaching the block of rotary modules (cassettes with fiber-optic cable) to the mounting rack along its front wall.

Technical result The claimed technical solution is to improve the maintainability of the fiber-optic distributor.

To achieve the specified technical result, a fiber-optic distributor is used, including a housing on which a mounting assembly for rotary modules is installed, consisting of a support rod and modules mounting plates, while the rotary modules are attached to the support rod using clamps, and the housing is installed in the support chassis and is equipped with housing extension mechanism.

In this case, the rotary modules are installed on the modules fastening plates and attached to the support rod with the help of module clamps on the rod. Rotary modules have the ability to rotate around the support rod, carried out if necessary, their installation / dismantling or when performing operations for their maintenance.

The mounting unit provides independent installation and dismantling of each individual rotary module, while the support rod is a single axis of rotation for all rotary modules.

Rotary modules in the working position are fixed on the bracket-stopper mounted on the body with the help of module clamps on the body, made, for example, in the form of magnets.

To ensure the extension of the block of rotary modules during their installation or maintenance, a housing extension mechanism is used, equipped with a housing extension mechanism lock, which serves to prevent spontaneous movement of the housing extension mechanism during installation or maintenance of rotary modules.

The chassis is also provided with mounting brackets for mounting the fiber optic distributor on a mounting rack. At the same time, the housing contains a rear wall, on which a holder comb is installed, which is designed for installation in its grooves of rotary modules.

Also, an organizer can be installed on one of the sides of the case, which serves to store the length of the optical cable.

The housing is attached to the mounting rack using mounting brackets equipped with a housing extension mechanism equipped with a lock for the housing extension mechanism. In addition, holes can be made in the mounting brackets, allowing you to change the depth of installation of the chassis on the mounting rack.

The case extension mechanism allows you to extend the case for installation of rotary modules or its maintenance, and thereby ensure the possibility of turning the rotary modules without the risk of damage to the optical fibers, while the lock of the case extension mechanism allows you to fix the case both in the working and in the extended position.

Mounting brackets allow you to install the block of rotary modules both on its back side and on its front side, and the installation depth of the block of rotary modules on the mounting rack may be different depending on the operating conditions. At the same time, various mounting areas for installing optical cables can be made on the rotary module and various equipment can be installed.

With the help of the proposed design, easy access to the support rod is provided, and the presence of a housing extension mechanism in the design allows rotation of the rotary modules, which excludes unacceptable bending of the optical fibers or damage to the cables placed in them.

In addition, the lightweight design of the module mounting plates allows reducing the metal consumption of the device as a whole.

The inventive design of the fiber optic distributor is shown in Fig. 1 and FIG. 2, and includes:

1 - body;

2 - support rod;

3 – module mounting plate;

4 - rotary module;

5 – module lock on the rod;

6 - bracket-stopper;

7 – module lock on the case;

8 – body extension mechanism;

9 – retainer of the housing extension mechanism;

10 - mounting brackets;

11 - support chassis;

12 - comb-holder;

13 - organizer.

The fiber-optic distributor contains a housing 1, on which a module attachment unit is installed, including a support rod 2 and module attachment plates 3, having U-shaped cutouts designed to accommodate the support rod in them, and which are inserted into the corresponding transverse grooves made on the support rod. rod 2.

Each swivel module 4 is mounted on the respective module 3 fixing plate and attached to the support rod 2 by means of the module lock on the rod 5. This ensures independent installation and the possibility of dismantling each individual swivel module 4 on the common axis of rotation formed by the support rod 2.

Rotary modules 4 in the working position are fixed on the bracket-stopper 6 mounted on the housing 1, with the help of the module locks on the housing 7, made, for example, in the form of magnets.

To ensure the extension of the block of rotary modules during their installation or maintenance, the support chassis 11 is used, on which the mechanism for extending the housing 8 is installed, equipped with a lock for the mechanism for extending the housing 9, which serves to prevent spontaneous movement of the mechanism for extending the housing 8 during installation or maintenance of the rotary modules 4.

The support chassis 11 is provided with mounting brackets 10 for mounting the fiber optic distributor on a mounting rack. At the same time, the housing 1 also contains a rear wall, on which a comb-holder 12 is installed, which is designed to be installed in its grooves of transport tubes with fiber-optic modules. And also, on one side of the support chassis 11, an organizer 13 can be installed, which serves to store the length of the optical cable.

On FIG. 2 shows the design of the rotary module 4, equipped with a module lock on the rod 5, as well as a module lock on the body 7.

On the rotary module 4 can be made various mounting areas and installed various equipment, for example: the area of attachment of optical cables and transport (protective) tubes with optical fibers 14; plot laying excessive length of optical fibers 15; section for laying the fibers of the mounting cords 16; section for welding optical fibers 17, made, for example, in the form of replaceable cradles, while not only kits for protecting welded joints (KDZS sleeves), but also optical splitters with different division ratios, as well as optical component mounting sockets can be placed on the replaceable cradles (adapters); section for laying optical cords and optical fibers of cable assemblies 18, sockets for fastening optical adapters 19, optical sockets 20, as well as other components.

On FIG. Figure 3 shows a fiber optic distributor in a front-mounted rack and in working position with the bend radius of the optical fibers within the allowable range.

On FIG. Figure 4 shows a fiber optic distributor front-mounted in a rack, with the rotary module stack in the extended mounting position, however, the chassis extension mechanism is not activated, as a result of which the optical fibers will inevitably touch the mounting rack and therefore be damaged during maintenance work.

On FIG. Figure 5 shows a fiber optic distributor front-mounted in a rack with the pivot module stack in the extended mounting position with the chassis slide-out mechanism engaged so that the optical fibers do not touch the rack and therefore cannot be damaged during performing maintenance work.

The inventive design of the fiber-optic distributor works as follows: when mounting the rotary modules 4, as well as if their maintenance is necessary, it is necessary to unlock the lock of the housing extension mechanism 10, extend the housing 1 and fix it in the extended position using the lock of the housing extension mechanism 9, due to which provides the ability to rotate the rotary modules without the threat of damage to the optical fiber, and also provides access to the rear of the housing, on which transport tubes with modules of optical fibers can be fixed.

When forming a block of several rotary modules 4, they are sequentially installed on the module mounting plates 3 and fixed with clamps 5 on the support rod 2, after which the module mounting plates 3 are rotated towards the rear wall of the case until it is fixed using the module lock on the case 7 on bracket-stopper 6.

In this case, the sequence of installation of several rotary modules 4 can be any, and to transfer the rotary module 4 to the service mode, it is enough to disconnect the latch 7 from the bracket-stopper 6 and rotate the rotary module 4 around the support rod 2.

When installing the support chassis 11 on the rack, it is fixed through the mounting brackets 10. At the same time, the support chassis 11 is equipped with a mechanism for extending the case 8, which allows you to push the case forward from the rack 1 in order to carry out its maintenance, and the lock of the mechanism for extending the case 9 allows you to fix the case 1 both in working and extended position.

At the same time, the brackets for mounting the case 10 allow mounting the support chassis 11 with the case 1 on the rack both along its back side and along its front side, and the depth of the case 1 mounting on the rack can be different depending on the operating conditions.

Thus, due to the proposed design of the fiber-optic distributor, its maintainability is increased.

Claims (1)

A fiber-optic distributor, including a housing on which a mounting unit for rotary modules is installed, consisting of a support rod and modules mounting plates, while the rotary modules are attached to the support rod using clamps, characterized in that the housing is installed in the support chassis and is equipped with a pull-out mechanism corps.

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