JP2008176118A - Optical path device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical path device which enables a movable chassis to smoothly slide on a fixed chassis, in wiring an optical cord in an adaptor. <P>SOLUTION: On the fixed chassis 15 stabilized on the back panel 5 in an optical wiring storage box, the movable chassis 16 for use in optical cord wiring is slidably supported and longitudinally guided by a guiding mechanism 17. The guiding mechanism 17 comprises three guide grooves 25, 26, 27 that extend longitudinally and three engaging members 28, 29, 30 in the lateral direction that engages with each guiding groove. The left and right engaging members 28, 29 and the center engaging member 30 are installed opposite in the longitudinal direction, with the movable chassis 16 being guided straight through the guide grooves 25, 26, 27 by the engaging members 28, 29, 30 situated at the intersection points of the triangle. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an optical line device for wiring an optical cord inside an optical wiring storage box.

2. Description of the Related Art Conventionally, there has been known an optical line device provided with a movable chassis for optical cord wiring that can be pulled out in the front-rear direction (depth direction) of the optical wiring storage box. For example, as shown in FIG. 8, the optical line device 51 of Patent Document 1 supports a movable chassis 54 on a fixed chassis 53 in an optical wiring storage box 52 so as to be slidable in the front-rear direction. Adapter 55 is arranged, and a bundle 57 of optical cords 56 connected to the adapter 55 is arranged along the partition wall 58 and routed from one side of the movable chassis 54 to another wiring device 59.
JP-A-2005-55748

  However, according to this type of drawer-type movable chassis, when the wiring density of the optical cord is not uniform from side to side, tilting power in the horizontal plane tends to act on the movable chassis along with the slide. For example, according to the optical line device 51 of FIG. 8, since a large number of optical cords 56 are densely wired on one side of the movable chassis 54, the movable chassis 54 is bent by the bending resistance of the cord bundle 57 when the adapter 55 is put in and out. There has been a problem that twisting occurs and the sliding operation of the movable chassis 54 becomes heavy. Further, since the space around the adapter 55 is reduced on the side where the cord bundle 57 is routed, there is a disadvantage that wiring work becomes difficult when the optical cord 56 is increased or decreased.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an optical line device that can smoothly slide a movable chassis during an optical cord wiring operation.

  In order to solve the above problems, an optical line device of the present invention includes a fixed chassis fixed in an optical wiring storage box, a movable chassis for optical code wiring supported slidably on the fixed chassis, and a movable A guide mechanism that guides the chassis in the front-rear direction of the optical wiring storage box with respect to the fixed chassis, the guide mechanism extending in the front-rear direction, and three engagements in the left-right direction that engage with each guide groove And engaging members on both left and right sides and a central engaging member at opposite positions in the front-rear direction.

  Further, the optical line apparatus of the present invention is provided with a plurality of adapters for connecting an optical cord on the movable chassis, a cord storage wall is erected around the adapter, and wiring cutout portions are provided at the four corners of the movable chassis. It is formed.

  According to the optical line device of the present invention, the movable chassis is guided straight forward in the front-rear direction via the three guide grooves by the three engaging members located at the intersections of the triangles. For this reason, even when the wiring density of the optical cord is not uniform, the movable chassis can be smoothly slid without causing twisting.

  Further, the extra length of the optical cord is neatly accommodated on the movable chassis by the cord accommodating wall standing around the adapter, and wired in a balanced manner from the four corners of the movable chassis to the front, rear, left and right through the notches. Therefore, wiring work to the adapter can be easily performed, and the movable chassis can be slid more easily.

  Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows an appearance of an optical wiring storage box in which an optical line device is installed. FIG. 2 shows various wiring devices housed inside the storage box body with the door removed from the optical wiring storage box. FIG. 3 shows the optical line device stacked on the upper part of the storage box body along the line AA of FIG. FIG. 4 shows an exploded view of one of the optical line devices. FIG. 5 shows a plan view of the optical line fixture along the line BB in FIG. FIG. 6 shows the guide mechanism of the optical line fixture along the line CC and DD in FIG.

  As shown in FIG. 1, the optical wiring storage box 1 of this embodiment is formed in a box shape from a storage box body 2 and a door 3, and a large number of optical cords are stored inside the storage box body 2. ing. A pair of left and right mounting brackets 4 are fixed to the rear portion of the storage box body 2 and can be installed on the wall surface of the building with the brackets 4, or can be installed inside the rack by the brackets 4 fixed to the front portion of the body 2. It can be stored or can stand on the floor.

  As shown in FIGS. 2 and 3, a back panel 5 and a pair of left and right side frames 6 are fixed inside the storage box body 2, and a cord receiver 7 is provided at an intermediate height of the side frames 6. On the front surface of the rear panel 5, a cable presser 8, a cord presser 9, a tension member presser 10, and a plurality of fusing trays 11 are disposed below the cord receiver 7. The same number of optical line devices 12 are stacked.

  Then, the work for fusing the optical cable on the incoming side to the optical cord with connector is performed by the fusion tray 11, and the wiring operation of the optical cord with connector on the primary and secondary side is performed by the optical line device 12. Note that the same number of cord clamps 13 (see FIG. 3) as the optical line fixtures 12 are arranged on the inner surface of the side wall of the storage box main body 2 in the vertical direction. The number of the fusion trays 11 and the optical line fixtures 12 is not limited to the illustrated example, and can be appropriately increased or decreased according to the number of optical cables (number of cores).

  As shown in FIGS. 4 and 5, the optical line device 12 includes a fixed chassis 15 fixed to the back panel 5, a movable chassis 16 slidably supported on the fixed chassis 15, and the movable chassis 16 as a fixed chassis. 15 is provided with a guide mechanism 17 for guiding the optical wiring storage box 1 in the front-rear direction. The fixed chassis 15 is formed in a rectangular shape by a thin plate made of resin or metal, and is fixed to the back panel 5 by a bent portion 15a at the rear end.

  The movable chassis 16 is formed in a rectangular box shape whose upper surface is opened by a thin plate made of resin or metal, and includes a flat portion 16a joined to the fixed chassis 15 and four cord storage walls 16b standing on the periphery of the flat portion 16a. I have. A plurality of adapters 19 for connecting the optical cord 18 with a connector are arranged in the center of the flat portion 16a via a holder 20, and cord clamps 21 (see FIG. 5) are provided on the left and right sides of the adapter 19.

  Cutout portions 22 for wiring are formed at the four corners of the flat portion 16a, and opening portions 23 for wiring that are continuous with the cutout portions 21 are provided between adjacent cord storage walls 16b. The extra length of the optical cord 18 with one end connected to the adapter 19 is stored inside the cord storage wall 16b, and the other end of the optical cord 18 passes through the notch 22 and the opening 23 from the four corners of the movable chassis 16 to the left or right or up and down. It can be wired in the direction.

  As shown in FIGS. 4, 5, and 6, the guide mechanism 17 of this embodiment includes three guide grooves 25, 26, and 27 extending in the front-rear direction in the fixed chassis 15, and each guide groove is provided in the movable chassis 16. Three engaging members 28, 29, 30 are provided in the left-right direction to engage with 25, 26, 27. The left and right guide grooves 25, 26 are formed in a long hole extending over almost the entire length of the fixed chassis 15. The central guide groove 27 is formed in a U-shape at the front end portion of the fixed chassis 15, and has a tapered portion 27 a that opens to the left and right at the open end.

  For the engaging members 28, 29, and 30, the same screw part or caulking part that includes the screw 31 and the slider 32 is used. The screw 31 is screwed or press-fitted into the hole 32 a of the slider 32 through a small hole 33 formed in the flat portion 16 a of the movable chassis 16. The slider 32 includes a large-diameter portion 32 b that is joined to the lower surface of the fixed chassis 15 and a small-diameter portion 32 c that is slidably fitted into the guide grooves 25, 26, and 27.

  The left and right engaging members 28 and 29 are attached to the rear end of the movable chassis 16, and the central engaging member 30 is attached to the front end of the movable chassis 16. The guide mechanism 17 guides the movable chassis 16 straightly in the front-rear direction through the three guide grooves 25, 26, 27 by the three engagement members 28, 29, 30 located at the intersections of the isosceles triangles. It is configured. The left and right engaging members 28 and 29 also function as a forward end stopper of the movable chassis 16, and the central engaging member 30 also functions as a backward end stopper of the movable chassis 16.

  According to the optical line device 12 having the above-described configuration, the movable chassis 16 is linearly guided by the three engaging members 28, 29, and 30 through the three guide grooves 25, 26, and 27. Even when the density is uneven, the movable chassis 16 can be smoothly slid. In particular, when the movable chassis 16 is retracted, the central engaging member 30 engages with the guide groove 27 to position the movable chassis 16 at a fixed position in the left-right direction, so that the movable chassis 12 is not tilted on the fixed chassis 15. It can be stored correctly, and a plurality of optical line devices 12 can be nicely stacked in the optical wiring storage box 1.

  Further, the extra length of the optical cord 18 is regulated by the four cord storage walls 16b, and is neatly stored around the adapter 19, and is well balanced in the front, rear, left and right through the notches 22 and the openings 23 at the four corners of the movable chassis 16. Wired. Therefore, a large number of optical cords 18 can be easily connected to or detached from all the adapters 19 and the movable chassis 16 can be slid more easily while suppressing the tilting force due to the wiring imbalance.

In addition, this invention is not limited to the said embodiment, As shown below, it is also possible to implement suitably changing the structure of each part in the range which does not deviate from the meaning of invention.
(1) As shown in FIG. 7, three guide grooves 25, 26, 27 are formed on the movable chassis 16 side, and three engagement members 28, 29, 30 are provided on the fixed chassis 15 side.
(2) The adapter 19 and the central guide groove 27 are provided at different positions in the left-right direction, and the guide groove 27 is formed longer in the front-rear direction.
(3) In the fusing tray 11 shown in FIG. 2 which is an optical line device, the guide mechanism 17 of the above embodiment is provided between the fixed chassis and the movable chassis.

It is a perspective view of the optical wiring storage box which shows one Embodiment of this invention. It is a front view which shows the main body of this storage box. It is a side view of the optical line instrument seen from the AA line of FIG. It is a disassembled perspective view of this optical line instrument. It is a top view of the optical line instrument seen from the BB line of FIG. (A) CC sectional view taken on the line of FIG. 5, (b) DD sectional view taken on the line of FIG. It is a disassembled perspective view which shows the example of a change of an optical line instrument. It is a perspective view which shows the conventional optical line instrument.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Optical wiring storage box 12 Optical line instrument 15 Fixed chassis 16 Movable chassis 16a Code storage wall 17 Guide mechanism 18 Optical cord 19 Adapter 22 Notch part 25, 26, 27 Guide groove 28, 29, 30 Engagement member

Claims (2)

  A fixed chassis fixed in the optical wiring storage box, a movable chassis for optical cord wiring supported slidably on the fixed chassis, and a guide for guiding the movable chassis to the fixed chassis in the front-rear direction of the optical wiring storage box And a guide mechanism having three guide grooves extending in the front-rear direction and three engagement members in the left-right direction that engage with the respective guide grooves. Is provided at opposite positions in the front-rear direction.   A plurality of adapters for connecting optical cords are arranged on the movable chassis, cord storage walls are erected around the adapters, and wiring notches are formed at four corners of the movable chassis. The optical line apparatus according to 1.

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