• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    FIBER OPTIC DISTRIBUTION SYSTEM. The present invention relates to a fiber optic distribution system that includes a rack and elements (10 / 210 / 310 / 410 / 510 / 610) which fill the rack including fiber terminations. Each element (10 / 210 / 310 / 410 / 510 / 610) includes a chassis (20 / 220 / 520 / 620) and a movable tray (24 / 224 / 524 / 624). The movable tray (24 / 224 / 524 / 624) includes a synchronized movement device for movement of a cable radius limiter (38 / 238 / 538 / 638). The tray (24 / 224 / 524 / 624) includes cable terminations which extend in a line generally parallel to a direction of movement of the movable tray (24 / 224 / 524 / 624). Each of the cable terminations is mounted on hinged frame members (56 / 256) positioned on each tray (24 / 224 / 524 / 624). Cables entering and leaving the movable tray (24 / 224 / 524 / 624) follow a generally S-shaped path (76 / 276 / 676).
    公开号:BR112015016789B1
    申请号:R112015016789-6
    申请日:2014-01-29
    公开日:2022-02-01
    发明作者:Johan Geens;Kristof Vastmans;Eric Marcel M. Keustermans;Pieter Vermeulen;Bart Vos;Dirk Jozef G. Van De Weyer;Lukas Desmond Elias Van Campenhout;Yves Peeters;Matthias Cyriel George Corneel Alderweireldt
    申请人:Tyco Electronics Raychem Bvba;
    IPC主号:
    专利说明:

    Field of Invention
    [001] The present invention relates to a fiber optic distribution element, including a rack, and elements which occupy the rack, including fiber terminations, patches, fiber splitters and fiber splices. Background of the Invention
    [002] Fiber optic distribution elements include fiber terminations and other equipment, which is typically rack mounted. A number of concerns exist with fiber optic distribution elements, including density, ease of use, and cable management. There is a continuing need for improvements in the area of fiber optic distribution. Summary of the Invention
    [003] An implementation of a fiber optic distribution element according to the exposition examples includes a rack-mountable building block element or other structure. The element includes a chassis and a movable tray. The tray is movably mounted to the chassis with a sliding mechanism that allows the tray to slide relative to the chassis. The sliding mechanism includes a synchronized motion feature for managing cables extending to and from the tray, so that a cable pull at the input and output locations is reduced or eliminated as the tray is moved.
    [004] A synchronized motion feature includes gears, including a rack and pinion system. Another synchronized motion feature includes wheels and wires.
    [005] The tray preferably includes mounting structures for maintenance of cable lugs, splitters and/or splices. A mounting frame includes an open shaped frame member for connector access. In one example, two cable members are provided, one positioned over the other. For improved access, the frame members are hingedly mounted to the tray. In a termination arrangement, adapters are arranged so that the connector geometry axes are horizontal and extend in a direction perpendicular to the travel direction for the tray.
    [006] Each frame member can be filled with adapter blocks. The paths guide cables to the adapter windows of the adapter blocks so that fiber optic cables terminated with connectors are received there. The cables follow a general S-shaped path from one side of each element to the adapter blocks. The S-shaped path includes two levels within the tray for cable segregation between the two frame members. Various flanges and radius stoppers can be provided to aid cable management.
    [007] Elements can be stacked in a column with each tray mounted horizontally, or used in a group or block mounted vertically. In the case of a column of elements, a selected tray is pulled out to access the desired tray, and then the frame members in the tray can be pivoted as needed.
    [008] One side of each element can be for patch cables, and the opposite side can be for cable termination of an incoming cable, such as a distribution cable or a feeder cable. Due to the synchronized movement feature, cables can be clamped along the sides of the elements and still allow sliding movement of the trays, without the need for large amounts or any cable slack.
    [009] Tray and frame members allow easy top and bottom access to connectors on either side of the adapters. Openings are provided in the bottom of the tray for hand access, if desired.
    [0010] Cable supports for distribution cables or feeder cables can be snap-fitted mounted to the elements and/or mounted on a longitudinal sliding support, and include resistance member clamps and cable clamps.
    [0011] Loose cable bundles can be managed with cable loops or other cable guides, such as flexible trunking.
    [0012] Elements can be configured as desired, and form building blocks for a fiber optic distribution (ODF) system.
    [0013] When elements are mounted on a column in a rack, cables can be placed in vertical cable guides to enter and exit the selected element.
    [0014] The example rack is accessible from the front, although the elements can be used in other racks, frames, cabinets or boxes including in arrangements where access from the rear is desirable or useful. Brief Description of Figures
    [0015] Figure 1 is a perspective view of a first embodiment of a fiber optic distribution element in accordance with aspects of the present disclosure;
    [0016] figure 2 is a top view of the element of figure 1;
    [0017] figure 3 is a perspective view of the element of figure 1 showing the tray pulled out of the chassis;
    [0018] Figure 4 shows one of the tray frame members pivoted up from the tray;
    [0019] Figure 5 shows a second frame member pivoted upward relative to the tray;
    [0020] figure 6 shows a portion of a cable management area of the element of figure 1;
    [0021] Figure 7 shows a view similar to Figure 6, with one of the frame members pivoted upwards;
    [0022] Figure 8 shows an alternative embodiment of an element with different cable management at the entry points;
    [0023] Figure 9 shows three of the elements of Figure 8 assembled in a block formation, with the cable radius limiters at the entry point mounted in an alternate position;
    [0024] figure 10 is a perspective view of the block of figure 9;
    [0025] figure 11 is a view of the block of figure 9, with the tray of the middle element pulled forward to access the fiber terminations;
    [0026] Figure 12 shows an enlarged portion of an entry point for one of the elements with a cable radius limiter in a first position;
    [0027] Figure 13 shows a similar view as in Figure 12, with cable radius limiter positioned in an alternative position;
    [0028] Figure 14 shows an exploded view of a cable assembly;
    [0029] Figure 15 shows an element with a cable assembly on one side, and the cable radius limiter on an opposite side;
    [0030] Figure 16 shows an alternative cable assembly;
    [0031] Figures 17 to 29 show various views of the elements shown in Figures 1 to 16 including additional details and cable routing shown for purposes of illustration;
    [0032] Fig. 30 shows an alternative embodiment of a block of two alternative elements;
    [0033] figure 31 shows a tray pulled forward from the chassis of one of the elements of the block of figure 30;
    [0034] Figure 32 shows the tray extended forward as seen in Figure 31, with one of the frame members pivoted upwards;
    [0035] Fig. 33 is a view similar to the view in Fig. 32, with a second frame member pivoted upwards;
    [0036] Fig. 34 shows a block that includes two elements;
    [0037] figure 35 shows an exploded view of the two elements of the block of figure 34;
    [0038] Fig. 36 shows a single element;
    [0039] figure 37 shows an exploded view of the element of figure 36;
    [0040] figure 38 shows the element of figure 37, without the top cover;
    [0041] figure 39 is a top view of the element of figure 38;
    [0042] Figure 40 is an alternative view of the element of Figure 38, showing alternative devices at cable entry points;
    [0043] figure 41 is a top view of the element of figure 40;
    [0044] Figure 42 shows an alternate embodiment of an element in a top view with an alternate synchronized motion feature;
    [0045] figure 43 is a perspective view of the element of figure 42;
    [0046] Figures 44 and 45 show a movement of the various components of the synchronized motion feature of Figures 42 and 43;
    [0047] Figures 46 and 47 show an element with an alternative radius limiter at cable entry and exit locations;
    [0048] Figures 48 and 49 show an element with alternative radius stops in the sliding mechanism;
    [0049] Figure 50 shows a pair of elements in a stacked configuration, the elements shown with another alternate radius limiter on the slider mechanism; and
    [0050] Figure 51 is a top view of one of the elements of Figure 50 illustrating the alternative radius limiter. Detailed Description
    [0051] Referring now to Figures 1 to 16, various embodiments of a fiber optic distribution element 10, or element 10, are shown. Elements 10 can be individually mounted, as desired, to telecommunications equipment including racks, boards or cabinets. Elements 10 can be assembled in groups or blocks 12, which form a stacked arrangement. In one embodiment, a vertical stack of elements 10 fills a fiber optic distribution rack.
    [0052] Each element 10 holds fiber terminals, or other fiber components, including fiber splitters and/or fiber splices. In the case of fiber terminations, incoming cables are connected to outgoing cables through connector cable ends, which are connected by adapters as will be described below.
    [0053] Each element includes a chassis 20 and a movable tray24. The tray 24 is movable with a sliding mechanism 30 including one or more gears 32 and a set of two toothed racks or linear members 34.
    [0054] Sliding mechanism 30 provides a synchronized movement for managing cables extending to and from tray 24. Entry points 36 on either side of chassis 20 allow attachment of input and output cables associated with each element. 10. Radius stops 38 associated with each slider mechanism 30 move in a synchronized motion relative to chassis 20 and tray 24 to maintain fiber slack without causing fibers to flex, pinch or pull.
    [0055] Each tray 24 includes a mounting structure 50 defining one or more fiber terminations, fiber splitters, fiber splices or other fiber components. As shown, the mounting structure 50 holds adapters 52, which allow the interconnection of two ends having cable connectors. Each tray 24 includes one or more frame members 56. In the example shown, two frame members 56 are provided. As illustrated, each frame member 56 is T-shaped. Also, each tray 24 includes two frame members 56 which are pivotally mounted at hinges 58. A top frame member 62 is positioned above a top frame member 62. frame 64. Mounting structure 50 associated with each frame member 62, 64 includes one or more integrally formed adapter blocks 70. Adapter blocks 70 include a plurality of adapter windows for interconnection to fiber optic connectors 72. A path 76 defines a generally S shape from radius stops 38 to adapter blocks 70. As shown, path 76 includes an upper level 78 and a lower level 80 on the inside. A portion 84 of path 76 is positioned adjacent to hinges 58 to prevent potentially damaging cable pulling during pivoting movement of frame members 56. Flanges 86 and radius stops 90 help keep cables 74 in paths 76.
    [0056] Tray 24 includes openings 96 to allow a technician to access cable terminations on adapter blocks 70. In addition, the T-shapes of frame members 56 further facilitate technician access to connectors 72.
    [0057] Cables 74 extending to and from guide tube 10 may be affixed with a cable assembly 100 as desired. Additional protection against fiber breaks can be provided with cable loops 102. Radius limiters 106 can additionally be used to support and protect cables 74.
    [0058] Referring now to Figures 17 to 29, various cable routing examples are illustrated for element 10.
    [0059] If desired, more than one feeder cable can supply a cabling for more than one element 10.
    [0060] Referring now to Figures 30 to 41, various additional embodiments of elements 210 are shown. Element 210 includes a chassis 220 on a movable tray 224 mounted with a sliding mechanism 230 which promotes synchronized movement of radius stops 238. Each tray 224 includes two pivotally mounted frame members 256. Each frame member 256 has a middle portion 260 separated by openings 262 from side portions 264. Middle portion 260 can hold fiber terminations. Side portions 264 include radius stops 270. Cover 266 goes over tray 224. Engagements 268 engage tray 224 with cover 266 in the closed position.
    [0061] A path 276 extends from either side of the tray 224 to supply cables to each of the trays 224. An upper tier 278 and a lower tier 280 supply the respective frame members 256 with cabling. A general S-shaped path 276 is defined, where the path 276 passes close to the hinges 258.
    [0062] A dovetail 288 is used to hold the cable holders 286 and radius limiters 284.
    [0063] An opening 290 in tray 224 allows the connector access by the technician. Similarly, openings 262 in each frame member 256 allow a technician access to individual connectors.
    [0064] For forming a block 292 of plural elements 210, bars 294 and fasteners 296 are used. Bars 294 provide close spacing between each element 210.
    [0065] Referring now to Figures 42 to 45, an alternative slider mechanism 330 is shown on the alternative element 310. The slider mechanism 330 allows for movement of the trays and related radius limiters and a synchronized movement similar to that of the slider mechanism 30 , 230. The reciprocating slide mechanism 330 includes two wheels 332 and two wires 334, 336. The wheels 332 are located on the second part 342. The wires are looped in opposite directions and are connected to the first part 340 and the third part 344.
    [0066] Referring now to Figures 46 and 47, an alternate radius stopper 420 is shown on the alternative member 410. The radius stopper 420 includes friction members 430 which limit the amount of sliding motion of cables passing through the 420 radius limiter, to help with cable management. The friction members 430 include flexible jaws which lightly press the cables at the radius stop 420 to reduce or eliminate sliding movement of the cables at the radius stop 420.
    [0067] Referring now to Figures 48 and 49, an alternative element 510 is shown with a sliding mechanism 530 which allows for synchronized movement of radius stoppers 538 for cable management. The 538 radius stops are also provided with a pivot feature to allow them to pivot backwards as the 524 tray is pulled out of the 520 chassis. This backward (pivot) movement allows for reduced pulling on the cables, if a pull is present, to allow the tray to be fully pulled out. Any angle can be provided. Fifteen degrees is an example angle.
    [0068] Referring now to Figures 50 and 51, an alternative radius limiter 638 is shown on the alternative element sliders 610. The elements 610 are generally similar in construction and function to those of the elements discussed previously. Radius limiter 638 defines an inner end 621 and an outer end 623 and a divider 625 extending from adjacent the inner end 621 to adjacent the outer end 623. In one embodiment, the divider 625 does not extend all the way through. path to the inner and outer ends 621, 623 of the U-shaped radius stopper 638. The outer end 623 of the radius stopper 638 cooperates with a cable guide 684 which is mounted on the chassis 620 of the element 610 for carrying cables to and from tray 624 to element 610.
    [0069] The divider 625 of the radius stopper 638 forms two separate troughs 627, 629 for the radius limiter 638. The two troughs 627, 629 isolate and separate the cables (e.g., entering and leaving) from the element 610 in two paths different. According to an example cable routing configuration, the two troughs 627, 629 can guide the cables to the upper and lower levels 678, 680 set towards the rear of the tray 624, while maintaining the S-shaped path 676 created in element 610. Divider 625 of radius limiter 638 includes a plurality of cable management tabs 631 mounted there for retaining cables in chutes 627, 629. A similar tab 633 is also found on rear of tray 624 for retaining cables. cables being taken to upper and lower levels 678, 680. Tabs 631 and 633 may be removable snap-fit fitting structures.
    [0070] Tabs 631 and 633 cooperate with additional cable management grips 635 set on radius stop 638 and towards the rear of tray 624 in retaining cables on the S-shaped path 676. Description of Numerals and Markings Reference elementblock chassistraysliding mechanismgearsrackentry pointsradius limitersmounting frameadaptersTop frame framememberbottom frame memberadapter blocksconnectorscablestravelupper levellower levelportionflangesradius limitersopeningscable mount radius limiters chassis elementtraysliding mechanism radius limiters frame members jointsmiddle portion openingsside portions coverageperchants openings radius cable assembly dovetail openingblockbarfasteners elementsliding mechanism wheelswirewirefirst part second part ter corner partradius limiter elementfriction memberschassis elementtraysliding mechanismradius stopperselementchassie inside end of radius stopper traydividerguttercable management tabcable management tabcable management claw beam limitertravelupper levellower levelcable guide
    权利要求:
    Claims (7)
    [0001]
    1. Fiber optic distribution element (10, 210, 310, 410, 510, 610) comprising: a chassis (20, 220, 520, 620); a movable tray (24, 224, 524, 624) of sliding form from inside the chassis (20, 220, 520, 620) to a position at least partially outside the chassis (20, 220, 520, 620); a sliding mechanism (30, 230, 330, 530), which connects the movable tray (24, 224, 524, 624) to the chassis (20, 220, 520, 620), where the sliding mechanism (30, 230, 330, 530) includes a radius stopper (38, 238, 538, 638) which moves with a synchronized movement in relation to the chassis (20, 220, 520, 620) and the tray (24, 224, 524, 624) during the sliding movement of the tray; characterized by the fact that each tray (24, 224, 524, 624) includes at least one pivotally mounted frame member (56, 256) which pivots about an axis perpendicular to the direction of movement of the movable tray (24, 224, 524, 624); wherein each frame member (56, 256) defines an array array of adapters (52), each adapter (52) configured to receive connectors (72) to be interconnected through the adapter (52), the array of adapters defining a line which is generally parallel to the direction of travel of the movable tray (24) , 224, 524, 624); wherein a cable entering or exiting the movable tray (24, 224, 524, 624) follows an S-shaped path (76, 276, 676), in which the cable extends from from an outside of the movable tray (24, 224, 524, 624) towards the movable radius stopper (38, 238, 538, 638) in a first direction, rotates around the radius stopper (38, 238, 538, 638) in a second direction generally opposite the first direction and is directed back into the at least one pivotally mounted frame member (56, 256) in a third direction generally opposite the second direction.
    [0002]
    2. Element (10, 210, 310, 410, 510, 610), according to claim 1, characterized in that the tray (24, 224, 524, 624) includes two frame members (56, 256) mounted articulated for independent movement.
    [0003]
    3. Element (10, 210, 310, 410, 510, 610), according to claim 1, characterized in that the S-shaped path (76, 276, 676) includes an upper portion (78, 278, 678) and a lower portion (80, 280, 680).
    [0004]
    4. Element (10, 210, 310, 410, 510, 610), according to claim 1, characterized in that it also comprises a cable assembly (100) along one side of the chassis (20, 220, 520 , 620).
    [0005]
    5. Element (10, 210, 310, 410, 510, 610), according to claim 1, characterized in that it also comprises a second non-movable cable radius limiter (106, 284, 420, 684) along on one side of the chassis (20, 220, 520, 620).
    [0006]
    Element (510) according to claim 1, characterized in that the radius limiter (538) of the sliding mechanism (530) includes a rotating portion that is configured to rotate backwards for cable management.
    [0007]
    Element (610) according to claim 3, characterized in that the radius limiter (638) of the sliding mechanism defines a divider (625) for separating and guiding cables to and/or from the upper portion (678) and of the lower portion (680) of the S-shaped path (676).
    类似技术:
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    BR112015027092B1|2022-02-08|UNIVERSAL INSTALLATION MECHANISM, TELECOMMUNICATION MODULE AND METHOD FOR INSTALLING A TELECOMMUNICATION CHASSIS TO A COMMUNICATION MODULE
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    法律状态:
    2018-11-13| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|
    2020-01-28| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2021-08-10| B06A| Patent application procedure suspended [chapter 6.1 patent gazette]|
    2021-12-07| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2022-02-01| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 29/01/2014, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    US201361758266P| true| 2013-01-29|2013-01-29|
    US61/758,266|2013-01-29|
    US201361798256P| true| 2013-03-15|2013-03-15|
    US61/798,256|2013-03-15|
    US201361815500P| true| 2013-04-24|2013-04-24|
    US61/815,500|2013-04-24|
    US201361892558P| true| 2013-10-18|2013-10-18|
    US61/892,558|2013-10-18|
    PCT/EP2014/051714|WO2014118227A1|2013-01-29|2014-01-29|Optical fiber distribution system|
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