JP3996468B2 - Cable surplus length processing structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cable surplus length processing structure, and more particularly to a cable surplus length processing structure in which an extra length portion of an optical cable is stored in a loop when an optical cable is connected to a communication device.
[0002]
[Prior art]
FIG. 8 is a perspective view of a conventional cable surplus length processing structure disclosed in JP-A-8-222866.
[0003]
In FIG. 8, a cable support 110 made of a horizontal shelf is fixed to a unit mounting frame (not shown) of the communication device via a support arm 112. Three cable placement portions 113 are provided on the upper surface of the cable support 110, and four wire saddles 111 are provided on the circumference of each cable placement portion 113 every 90 degrees. The wire saddle 111 is formed by bending an elongated plate as shown in FIG. 9 and bending the upper ends of both ruled portions that are bent and connected upward at both ends of the bottom portion inward and obliquely downward, and between the oblique bent portions on both sides. A gap is provided, the optical cable 120 is passed between both sides, and the bottom is fixed to the upper surface of the cable support 110 with screws or the like. The optical cable 120 having one end connected to the communication device passes through the four wire saddles 111 so as to form a loop 121 in one of the cable placement portions 113, and the other end is led out to the outside.
[0004]
FIG. 10 is a perspective view of a conventional cable surplus length processing structure that can increase the number of optical cables stored in Japanese Patent Laid-Open No. 8-54550.
[0005]
In FIG. 10, the cable support 202 is horizontally attached to the upper rear portion of the electronic circuit unit 201, and two wire saddles 211 positioned vertically are attached to the holding metal fitting 203 suspended vertically from the rear end of the cable support 202. is there. The optical cable 220 passes through the two wire saddles 211 of the holding metal fitting 203 to form a loop 221 and processes the surplus length. By forming the loop 221 of the optical cable 220 in the vertical direction by the holding metal fitting 203 suspended in addition to the upper surface of the cable support 202, the extra length can be processed, and the number of optical cables 220 accommodated can be increased.
[0006]
[Problems to be solved by the invention]
In the conventional cable surplus length processing structure shown in FIG. 8, the optical cable 120 can be supported only on the upper surface of the cable support 110, and the number of cables accommodated is limited by the size of the wire saddle 111 attached to the cable support 110. .
[0007]
Further, in the conventional cable surplus length processing structure shown in FIG. 10, the holding metal fitting 203 and the optical cable 220 suspended from the cable support 202 cover and cover the back surface of the electronic circuit unit 201, and the optical cable of the electronic circuit unit 201 is blocked. There is a problem that connection work and maintainability are significantly hindered. In addition, when the loop 221 of the optical cable 220 is formed in the vertical direction, the optical cable 220 is bent at the portion of the wire saddle 211 that holds the loop 221 and gradually falls due to its own weight. There is a problem that it cannot be maintained.
[0008]
The present invention provides a cable surplus length processing structure that can cope with an increase in the number of optical cables and the like, while avoiding the problem that the back surface of the electronic circuit unit and the like cannot be maintained and the radius of curvature cannot be maintained.
[0010]
[Means for Solving the Problems]
The cable surplus length processing structure of the present invention is a lower cable provided with a lower cable mounting portion (17 in FIG. 1) for mounting the cable (20 in FIG. 3) in a horizontal loop (21 in FIG. 3). An upper cable provided with a support (10 in FIG. 1) and an upper cable mounting portion (34 in FIG. 2) for mounting the cable removably mounted on the lower cable support in a horizontal loop. A support (13 in FIG. 2), a plurality of legs (15 in FIG. 2) parallel to each other provided at least one on both sides of the upper cable mounting portion below the upper cable support, and the lower cable A rectangular mounting hole (12 in FIG. 1) that is provided at a position corresponding to the leg of the support and whose length in the width direction of the leg is smaller than the width of the leg, and a step on both sides at the lower end of the leg Part (31 in FIG. 4) And a locking portion (30 in FIG. 4) having a bent portion (30 in FIG. 4) which is bent in the thickness direction of the leg portion, which is connected to the lower cable support and extends in the same direction as the leg portion. 32) and
The width of the system stop is smaller than the length of the mounting hole in the width direction of the leg, and the length of the bent portion in the thickness direction of the leg is larger than the length of the mounting hole in the thickness direction of the leg. The leg portion is fixed to the lower cable support with the stepped portion being in contact with the upper surface of the lower cable support, the locking portion being passed through the mounting hole, the tip portion being opposed to the lower surface of the lower cable support. In the upper cable support, the leg provided on one side of the upper cable mounting part and the leg provided on the other side have the distal ends bent in opposite directions. It is characterized by.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
FIG. 1 is a perspective view showing a lower cable support 10 of an optical cable surplus length processing structure according to an embodiment of the present invention.
[0018]
The lower cable support 10 is horizontally attached to the back surface of the fan unit 2 provided on the upper back surface of the communication device 1, and four lower cable mounting portions 17 are provided. Each lower cable mounting portion 17 has a circular opening 18 at the center and a U-shaped notch 19 between them. In addition, four wire saddles 11 are provided around the opening 18 at equal intervals, and the loop 21 (see FIG. 3) of the optical cable 20 formed around the opening 18 is held by the four wire saddles 11. ing.
[0019]
FIG. 2 is a perspective view of the upper cable support 13 mounted on the lower cable mounting portion 17 of the lower cable support 10.
[0020]
The upper cable support 13 has a rectangular outer shape when viewed from above and is formed of a single sheet metal, and two legs are provided on each of two opposing sides (sides parallel to the back surface of the communication device 1). The leg portion 15 has a sheet metal bent 90 degrees and is vertically set. Note that when the upper cable support 13 is mounted on the lower cable support 10, the leg portion 15 needs to be higher than the wire saddle 11 so that the upper cable support 13 does not interfere with the wire saddle 11.
[0021]
As shown in FIG. 4, the lower end portion of the leg portion 15 is provided with a step portion 31 having the same height on both sides, and the width is slightly narrowed by the step portion 31 that is a portion ahead of the step portion 31. The tip of the stop portion 32 is a bent portion 30 bent 90 degrees outward. The lower cable support 10 is provided with an attachment hole 12 corresponding to the lower side of the leg portion 15. The mounting hole 12 is rectangular, and the length C of the long side in the direction parallel to the back surface of the communication device 1, that is, the direction parallel to the sheet metal forming the leg 15 is smaller than the width A of the leg 15, and the locking portion 32. It is larger than the width B. The length D of the short side in the thickness direction of the sheet metal forming the leg portion 15 of the attachment hole 12 is larger than the length E of the bent portion 30 (including the thickness of the leg portion 15). The length F between the step portion 31 and the upper surface of the bent portion 30 is the same as or slightly larger than the plate thickness of the lower cable support 10.
[0022]
The length G between the outer long sides of the attachment hole 12 provided on the communication device 1 side of the lower cable support 10 and the attachment hole 12 provided on the opposite side of the communication device 1 is removed from the lower cable support 10. Further, the length is smaller than the length H between the outer surfaces of portions of the upper cable support 13 excluding the bent portions 30 of the leg portions 15 corresponding to the mounting holes 12.
[0023]
For example, as shown in FIG. 5, the upper cable support 13 is attached to the lower cable support 10 by inserting a bent portion 30 at the tip of the leg 15 on the opposite side of the communication device 1 into the corresponding attachment hole 12. The step portion 31 is brought into contact with the upper surface of the lower cable support 10. Next, the distal end portion of the leg portion 15 on the communication device 1 side is pushed to the opposite side of the communication device 1 and bent until the bending portion 30 matches the position of the corresponding mounting hole 12. When the step 15 is inserted into the hole 12 and the pressing of the leg 15 is released after the step 31 is brought into contact with the upper surface of the lower cable support 10, the leg 15 on the side of the communication device 1 and the leg 15 on the opposite side are connected to each other. The bending portion 30 comes to be located below the lower cable support 10 outside the attachment hole 12 so as to expand the gap, and the tip of the leg portion 15 cannot be detached from the attachment hole 12, and the upper cable support 13. Is fixed to the lower cable support 10.
[0024]
When removing the upper cable support 13 from the lower cable support 10, the tip of the leg 15 can be extracted from the attachment hole 12 by pushing the leg 15 and bending the bent part 30 until it matches the attachment hole 12. .
[0025]
The upper surface of the upper cable support 13 forms an upper cable mounting portion 34, has a circular opening 33 at the center, and four wire saddles 14 are provided at equal intervals around the opening 33. The horizontal loop 21 (see FIG. 3) of the optical cable 20 formed around the center is held by the four wire saddles 14.
[0026]
FIG. 3 is a view showing a state where the upper cable support 13 is attached to the lower cable mounting portion 17 at the right end of the lower cable support 10 and the loops 21 of the optical cable 20 are held by the wire saddles 11 and 14.
[0027]
In the method of performing the extra length processing of the optical cable 20, first, the optical cable 20 that has been guided vertically in the side surface portion of the communication device 1 is attached to the lower cable support 10 without the upper cable support 13 attached to the lower cable support 10. 3 (only the right side is shown in FIG. 3), and the wire saddle 11 of the lower cable mounting portion 17 is wound around a horizontal loop 21 and processed, and then the tip is placed in the communication device 1. To the connector (not shown) of the unit. Next, the upper cable support 13 is attached to the lower cable support 10, and another optical cable 20 is also introduced from the right side of the upper cable support 13, and the extra length portion is horizontally placed on the wire saddle 14 of the upper cable mounting portion 34. After processing by wrapping around the loop 21, the tip is connected to the connector of the unit in the communication device 1.
[0028]
The lower cable support 10 is held by a bracket 35 that is fixed to the side surface of the communication apparatus 1 with both side ends forming a curved surface 36 and facing downward. The curved surface 36 prevents the optical cable 20 introduced from both sides from being bent below the allowable radius. Also, curved surfaces 37 are formed on both sides of the upper cable support 13 to prevent the optical cable 20 guided along the upper cable support 13 from being bent to an allowable radius or less.
[0029]
FIG. 3 shows a case where the upper cable support 13 is attached to the lower cable mounting portion 17 at the right end of the lower cable support 10. The upper cable support 13 is formed of four lower cable mounting portions 17 of the lower cable support 10. It can be arbitrarily attached to any of them, and a plurality of upper cable supports 13 can be attached to any lower cable mounting portion 17, so that the workability and storage of the optical cable 20 can be improved.
[0030]
FIG. 6 is a perspective view of an upper cable support 41 used in a cable surplus length processing structure according to another embodiment of the present invention. The upper cable support 41 is also mounted on the lower cable support 10 shown in FIG. 1, and two upper cable mounting portions 38 corresponding to the two lower cable mounting portions 17 of the lower cable support 10 are provided. The upper cable placement portion 38 includes a central opening 33 and a wire saddle 14 disposed around the opening 33. In addition, two leg portions 15 are provided only at both end portions of the upper cable support 41.
[0031]
FIG. 7 is a perspective view of an upper cable support 42 used in a cable surplus length processing structure according to still another embodiment of the present invention. The upper cable support 42 is also mounted on the lower cable support 10 shown in FIG. 1, and three upper cable mounting portions 39 corresponding to the three lower cable mounting portions 17 of the lower cable support 10 are provided. The upper cable mounting portion 39 includes a central opening 33 and a wire saddle 14 disposed around the opening 33. In addition, two leg portions 15 are provided only at both end portions of the upper cable support 42. However, the arrangement of the leg portions 15 is not limited to that shown in FIG. 7, and each of the upper cable placement portions 39 includes four leg portions 15 corresponding to the mounting holes 12 provided in the lower cable support 10. Or you may make it provide what remove | excluded some of the leg parts 15. FIG.
[0032]
Although not shown in the drawing, an extension portion of the optical cable 20 forming a loop 21 held by the wire saddle 11 of the lower cable support 10 is led to the lower side of the lower cable support 10 through the opening 18 or the notch 19. The tip can also be connected to a terminal of a unit provided on the back side of the communication device 1. An extended portion of the optical cable 20 that forms the holding loop 21 in the wire saddle 14 of the upper cable support 13 can also be led to the lower side of the lower cable support 10 through the openings 33 and 18. Further, the optical cable 20 forming the loop 21 held by the wire saddle 14 by providing a notch between the upper cable placement portions 38 of the upper cable supports 41 and 42 or between the upper cable placement portions 39, It can also be made to guide to the lower side through a notch.
[0033]
As shown in FIGS. 6 and 7, the upper cable mounting portion 38 on which the loop 21 for processing the extra length of the optical cable 20 is mounted has two cable supports 41, the upper cable mounting portion 39 has three cable supports 42, and the like. As a result, it is possible to properly use a cable support having an appropriate size depending on the number of optical cables 20 to be introduced and the mounting position.
[0034]
In addition, as a material of the lower cable support 10 and the upper cable support 13, 41, 42, for example, a steel plate can be used, and a plastic resin can also be used. The same applies to the wire saddles 11 and 14.
[0035]
The present invention can be applied not only to optical cables but also to various cables.
[0036]
【The invention's effect】
The cable surplus length processing structure of the present invention has a two-stage structure of a lower cable support and an upper cable support that accommodate the extra length of the cable, and can increase the number of cables stored. That is, by mounting the upper cable support on the lower cable support, it is possible to easily increase or reduce the cable extra length processing area according to the number of cables introduced. In addition, the upper cable support can be attached to and detached from the lower cable support without using a screw or a tool, and the extra length processing area of the cable can be easily increased or reduced.
[0037]
Usually, connectors for connecting cables of various units are arranged on the back of communication devices, etc., and the back of communication devices etc. can be easily reached and easily viewed for connecting cables to the connectors. However, the lower cable support and the upper cable support of the present invention obstruct the cable connection work by simply stacking the cable reels horizontally and compactly and covering only a small part on the back of the communication device. There is nothing.
[0038]
In the example shown in FIG. 1 and FIG. 3, a lower cable support is attached to the fan unit 2 provided at the upper part of the back surface of the communication device 1, and the back surface of the communication device 1 other than the fan unit 2 is connected to the cable extra length processing structure. 10 does not cover, and the loop of the cable arranged vertically as in the conventional extra length processing structure shown in FIG. 10 does not cover much of the back surface of the communication device, and may damage the work area of cable connection. Absent.
[0039]
As described above, the cable surplus length processing structure of the present invention is a compact structure that does not require a large amount of space, and can be used efficiently in a narrow casing of the communication device.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a lower cable support 10 of an optical cable surplus length processing structure according to an embodiment of the present invention.
FIG. 2 is a perspective view showing an upper cable support 13 of an optical cable surplus length processing structure according to an embodiment of the present invention.
FIG. 3 is a partial perspective view of the optical cable surplus length processing structure according to the embodiment of the present invention.
4 is a perspective view showing a state before a lower end portion of a leg portion 15 in FIG. 2 is inserted into a corresponding attachment hole 12 in FIG. 1;
5 is a perspective view showing a state in which a lower end portion of a leg portion 15 in FIG. 2 is inserted into a corresponding attachment hole 12 in FIG.
FIG. 6 is a perspective view showing an upper cable support 41 of an optical cable surplus length processing structure according to another embodiment of the present invention.
FIG. 7 is a perspective view showing an upper cable support 42 of an optical cable surplus length processing structure according to still another embodiment of the present invention.
FIG. 8 is a perspective view of a conventional optical cable surplus length processing structure.
9 is a perspective view of the wire saddle 111 in FIG. 8. FIG.
FIG. 10 is a perspective view of another conventional optical cable surplus length processing structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Communication apparatus 2 Fan unit 10 Lower cable support 11 Wire saddle 12 Mounting hole 13 Upper cable support 14 Wire saddle 15 Leg part 17 Lower cable mounting part 18 Opening part 19 Notch 20 Optical cable 21 Loop 30 Bending part 31 Step part 32 Engagement Stop 33 Opening 34 Upper Cable Placement 35 Bracket 36 Curved Surface 37 Curved Surface 38 Upper Cable Placement 39 Upper Cable Placement 41 Upper Cable Support 42 Upper Cable Support 110 Cable Support 111 Wire Saddle 112 Support Arm 113 Cable Mounting unit 120 Optical cable 121 Loop 201 Electronic circuit unit 202 Cable support 203 Holding bracket 211 Wire saddle 220 Optical cable 221 Loop

Claims (1)

A lower cable support provided with a lower cable mounting section for mounting the cable in a horizontal loop, and a cable that is detachably mounted on the upper part of the lower cable support for mounting in a horizontal loop An upper cable support provided with an upper cable mounting portion, a plurality of legs provided at least one on both sides of the upper cable mounting portion on the lower side of the upper cable support and parallel to each other, and the lower cable support A rectangular mounting hole provided at a position corresponding to the leg portion and having a length in the width direction smaller than the width of the leg portion is connected to the lower end of the leg portion by providing stepped portions on both sides. A locking portion having a bent portion that is bent in the thickness direction of the leg portion, extending in the same direction as the leg portion by the thickness of the cable support,
The width of the system stop is smaller than the length of the mounting hole in the width direction of the leg, and the length of the bent portion in the thickness direction of the leg is larger than the length of the mounting hole in the thickness direction of the leg. The leg portion is fixed to the lower cable support with the stepped portion being in contact with the upper surface of the lower cable support, the locking portion being passed through the mounting hole, the tip portion being opposed to the lower surface of the lower cable support. In the upper cable support, the leg provided on one side of the upper cable mounting part and the leg provided on the other side have the distal ends bent in opposite directions. Cable surplus length processing structure.

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