RU168185U1 - Swivel unit for connecting the board to the module block housing - Google Patents

Abstract

The rotary node for connecting the board to the housing of the fiber optic module unit contains the axis of rotation of the board located between the latches of the socket made in the board, which is located on the bracket connected to the housing of the module block. In this case, the latches are made in the form of elastic elements, the axis is located between the parallel plates of the bracket, on the basis of which the fastening elements are made - guide protrusions and a hole used to connect the bracket to the housing of the module block. The technical result is to increase the maintainability of the rotary node connecting the board with the body of the block of fiber optic modules. 6 ill.

Description

This technical solution relates to means for terminating, distributing and switching fibers of optical communication cables. It is intended for use in the construction of fiber optic communication lines.

Known are the rotary boards (plates) used in modular cross blocks on which cassettes with optical fiber splices are mounted, each rotary plate is L-shaped, its axis of rotation is perpendicular to the plane of one part of the L-shaped plate, and the section for mounting the cartridge with splices optical fiber is located on another part of the plate (RU 2371743 C1, 03/27/2009).

Known block modular cassettes, which are fixed in the housing and are designed to accommodate optical fibers in them with devices for their splicing or to accommodate other optical devices, and each cartridge is installed in the housing with the possibility of rotation relative to the housing and may be inoperative outside the housing in order to facilitate access to the rear surface of the connectors and splice plates (US 5093885 A, 03.03.1992). In this unit, when installing network or station cables, they are led into the case, split and attached to splice plates, where they are connected to intermediate optical fibers that go to the panel with optical connectors. Cables from consumers or optical devices are then connected to the panel with optical connectors through appropriate connectors, such as a flexible fiber optic connector (pigtail).

EP application describes a junction box for fiber optic cables, in which the modular principle of placing elements of a fiber optic communication line, mounted on boards for making connections, fixed in different places, but in close proximity to each other on the same support, is applied . Due to rotation on the axis, the base plate, being outside the case, can be inoperative, and it is possible to carry out installation and commissioning works on it (EP 0538164 A1, 04/21/1993).

A known block in the form of boards (plates), each of which is fixed with the possibility of rotation in order to provide them with separate access, and has a mounting area made with the possibility of installing and removing at least one of the many mentioned optical telecommunication modules, and also a section with fastening means for accommodating the excess length of the fiber optic cable, the plates being essentially L-shaped and the pivot axis extending perpendicular to the plane of the plate through one of the sides “L” (RU 2371743 C2, 10/27/2009).

A known board for a fiber-optic communication line formed by a side and a bottom, the board has a section for laying the input multi-fiber cable, a mounting section for laying cable fibers and a section for accommodating the excess length of cable fibers, the board has an elongated shape, has means for its rotary installation on the rotation axis with the possibility of rotation and removal from the axis, while the axis is located between a pair of elastic retainers (RU 133624 U1, 10.20.2013 - prototype). In the prototype, there is essentially a rotary node for connecting the board to the case of the module block of the fiber optic communication line, while the rotary node contains a socket in the board with latches and an axis of rotation of the board located between the latches and connected to the housing. This node has one common axis of connection with the case of a group of boards, and the axis is fixed to the case in its brackets. As a result of using one axis to connect a group of boards to the case during operation of the module, backlashes appear in the connections of the axis with the boards, the flexibility of readjustment is reduced, and the maintainability of such a module is significantly reduced.

The technical result of this utility model is to increase the maintainability of the rotary node connecting the board with the body of the block of fiber optic modules.

The technical result is obtained by a rotary node for connecting the board to the housing of the fiber optic module unit, containing the axis of rotation of the board located between the latches of the socket made in the board, which is located on the bracket connected to the housing of the module block, characterized in that the latches are made in the form of elastic elements, the axis is located between parallel plates of the bracket, on the basis of which the fasteners are made - guide protrusions and a hole used to connect the bracket to the housing lei.

In FIG. 1 shows a rotary assembly connected to the board and the housing of the module block (the board is in working position).

In FIG. Figure 2 shows the rotary assembly for connecting the board to the housing of the module block (board in the mounting position).

In FIG. 3 - the board in the working position and the bracket of the rotation unit (the board from the bracket is removed).

In FIG. 4 - the board in the mounting position and the bracket of the rotation unit (the board is removed from the bracket).

In FIG. 5 - bracket, front view.

In FIG. 6 - bracket, rear view.

The rotary assembly comprises a socket 2 made in the circuit board 1 (Fig. 3) with elastic clips 3, between which the rotational axis 4 of the circuit board is located in the operating position of the assembly. The axis 4 is connected to the housing 5 of the module unit by means of a bracket 6. The housing 5 is shown in the drawings conditionally, it is a supporting structure for a fiber optic module rotatable assembly mounted on it by an arm 6. The bracket 6 (Fig. 5, 6) is one integral part made integral with the axis 4. At the same time, the bracket 6 also includes a pair of parallel plates 7 connected to the ends of the axis 4 and the base 8. A hole is made in the base 9 under the bolt of the bracket 6 to the housing 5 (the bolt is not shown). On the outside, the base 8 has two protrusions 10, through which the bracket is fixed in the holes of the housing 5 of the module block (holes in the housing are not shown).

The rotary assembly operates as follows. When attaching the bracket 8 to the wall of the housing 5, the protrusions 10 of the base 8 of the bracket are introduced into the holes of the housing 5 (Fig. 6) and, using a bolt connection, press the base 8 against the wall of the housing 5 through the hole 9, while the axis 4 of the bracket occupies a vertical position. When installing a group (set) of brackets for several boards, they are placed in tiers one above the other so that the axis of the 4 brackets are located on one vertical line. A board is put on each individual axis 4 so that the axis first enters socket 2 and is oriented towards the gap between the elastic elements 3 of the socket. By a push on the rear side of the board, axis 4 is inserted between the elements 3 until it stops into the socket limiter, while the elastic elements 3 are closed and latched, and the axis 4 is fixed in the socket 2 of the board. By turning, the board is put into working position. Board removal from axis 4 is carried out in the reverse order.

Since each rotary node has its own individual axis of connection of the board with the case, when replacing parts of such a node, the flexibility of the readjustment of a module having many boards, each of which has its own rotation node, is increased. At the same time, maintainability of the module as a whole is significantly increased - with the indicated replacement, other components of the module remain in their working positions. During long-term operation, this rotary assembly also significantly reduces the complexity of the repair, since the appearing backlashes in the connection of the board with the module case, during which the assembly is replaced, are eliminated for each individual board.

Claims (1)

A rotary assembly for connecting the board to the housing of the fiber optic module unit, comprising an axis of rotation of the board located between the latches of the socket made in the circuit board, which is located on an arm connected to the housing of the module block, characterized in that the latches are made in the form of elastic elements, the axis is located between the parallel bracket plates, on the basis of which fasteners are made - guide protrusions and a hole used to connect the bracket to the housing of the module block.

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