(19)
(11)EP 2 197 078 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
26.06.2019 Bulletin 2019/26

(21)Application number: 10158567.7

(22)Date of filing:  21.03.2003
(51)International Patent Classification (IPC): 
H02G 3/06(2006.01)
F16B 5/12(2006.01)
F16B 5/00(2006.01)
F16B 21/00(2006.01)

(54)

Coupler for cable trough

Kupplungselement für Kabelkanal

Elément de couplage pour goulotte


(84)Designated Contracting States:
AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LI LU MC NL PT RO SE SI SK TR

(30)Priority: 27.03.2002 US 107547
27.12.2002 US 330590

(43)Date of publication of application:
16.06.2010 Bulletin 2010/24

(62)Application number of the earlier application in accordance with Art. 76 EPC:
03745587.0 / 1490937

(73)Proprietor: ADC Telecommunications, Inc.
Eden Prairie, MN 55344-2252 (US)

(72)Inventors:
  • Nault, Gary
    Bloomington, MN 55438 (US)
  • Haataja, Timothy, Jon
    Prior Lake, MN 55372 (US)
  • Ferris, Mathew, D.
    Morris Plains, NJ 07950 (US)
  • Watts, Alex
    Chapel Hill, NC 27517 (US)

(74)Representative: Bohnenberger, Johannes et al
Meissner Bolte Patentanwälte Rechtsanwälte Partnerschaft mbB Postfach 86 06 24
81633 München
81633 München (DE)


(56)References cited: : 
EP-A1- 0 657 672
NL-A- 8 303 105
US-A- 4 694 544
DE-U1- 29 615 854
US-A- 3 042 351
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description

    Technical Field



    [0001] The present invention relates to a system for the management and routing of telecommunication cables, and, more particularly, to a coupler for joining two or more trough members.

    Background



    [0002] In the telecommunications industry, the use of optical fibers for signal transmissions is accelerating. With the increased utilization of optical fiber systems, optical fiber cable management requires industry attention.

    [0003] One area of optical fiber management that is necessary is the routing of optical fibers from one piece of equipment to another. For example, in a telecommunications facility, optical fiber cables may be routed between fiber distribution equipment and optical line terminating equipment. In buildings and other structures that carry such equipment, the cable routing can take place in concealed ceiling areas or in any other manner to route cables from one location to another.

    [0004] When routing optical fibers and other cables such as copper wires, it is desirable that a routing system will be readily modifiable and adaptable to changes in equipment needs. Accordingly, such routing systems include a plurality of components, such as trough members and couplers, for defining the cable routing paths. The trough members are joined together by couplings. U.S. Patent Nos. 5,067,678, 5,316,243, and 5,752,781 teach cable routing systems that include a plurality of trough members and couplers.

    [0005] Various concerns arise in the use of couplers for coupling trough members. One concern is that a plurality of hardware is used for joining the trough members. This hardware can be cumbersome. Further, there is sometimes a need to rearrange or change the trough members and couplers. It is desirable to provide couplers that can be disconnected.

    Summary



    [0006] A coupler for a cable trough system according to one aspect of the invention may include a body including a bottom wall and two side walls defining a trough, the body having a body terminal end defining an overlap region, the overlap region being sized to slideably receive a terminal end of a trough member along a longitudinal direction of the body, and a spring coupled to the body and positioned in the overlap region for securing the terminal end of the trough member to the coupler, the spring including first and second spring arms extending generally in opposition to one another in a plane generally parallel to the longitudinal direction.

    [0007] In another aspect, the invention relates to a cable trough system including a body including walls defining a bottom wall and two side walls defining a trough, the body having a body terminal end defining an overlap region, the overlap region being sized to slideably receive a terminal end of a trough member along a longitudinal direction of the body, and a spring coupled to the body and positioned in the overlap region for securing the terminal end of the trough member to the coupler, the spring including first and second spring arms aligned in a plane extending in a direction non-transverse with respect to the longitudinal direction.

    [0008] In yet another aspect, the invention relates to a coupler for a cable trough system including a body including walls defining a bottom wall and two side walls defining a trough, the body having a body terminal end defining an overlap region, the overlap region being sized to slideably receive a terminal end of a trough member along a longitudinal direction of the body, and a spring coupled to one of the walls of the body for securing the terminal end of the trough member to the coupler, the spring including a first arm that is moveable in a plane generally parallel to the one wall between a locked position and an unlocked position.

    [0009] In another aspect, the invention relates to a locking mechanism for coupling a coupler with a trough member including a main body including a first railway extending in a longitudinal direction, a first spring including first and second arms aligned in a plane generally parallel with respect to the longitudinal direction, the first spring being coupled to the main body, and a first spring release including first and second fingers, the first spring release slidingly engaging the first railway of the main body so that the first spring release slides in the longitudinal direction between a locked position, wherein the first and second fingers release the first and second arms of the first spring, and an unlocked position, wherein the first and second fingers compress the first and second arms of the first spring towards one another to release the locking mechanism and the coupler from the trough member.

    [0010] In another aspect, the invention relates to a cable trough system comprising a trough member having a terminal end and including first and second sidewalls coupled to a bottom wall generally forming a trough, the trough member defining a slot, a coupler including a body including a bottom wall and two side walls defining a trough, the body having a body terminal end defining an overlap region, the overlap region being sized to slideably receive the terminal end of the trough member along a longitudinal direction of the body, and a spring coupled to the coupler, wherein the spring is received in the slot when the trough member is inserted into the coupler to couple the trough member to the coupler.

    [0011] In yet another aspect, the invention relates to a coupler for a cable trough system including a trough member having a terminal end, the coupler including a body having an open end and including first and second guiding surfaces defining a spacing, the spacing being sized to receive the terminal end, with the first guiding surface slideably engageable with an internal wall surface of the terminal end and with the second guiding surface slideably engageable with the external wall surface of the terminal end, a spring coupled to the body and including first and second spring arms aligned in a plane generally parallel to the first and second guiding surfaces, and a spring release mechanism coupled to the body including a spring release, wherein, when the terminal end of the trough member is inserted into the coupler body, the first and second spring arms engage opposing portions of the trough member defining a slot, and wherein the spring release releases the first and second arms from engagement with the opposing portions when the spring release is slid in a direction parallel to the first and second guiding surfaces.

    [0012] In another aspect, the invention relates to a method for using a coupler and a trough member, the method including steps of: providing a terminal end of the trough member coupled to the coupler, wherein the terminal end was inserted in a longitudinal direction into a spacing defined by the coupler; sliding a spring release in the longitudinal direction to disengage a spring from portions of the trough member defining a slot; and removing the terminal end of the first trough member from the spacing.

    [0013] In yet another aspect, the invention relates to a method for using a coupler and a trough member including steps of: providing a terminal end of the trough member, the trough member defining a slot; providing a coupler defining a spacing and including a locking element with a spring; and inserting the terminal end of the trough member in a longitudinal direction into the spacing defined by the coupler so that the locking element is at least partially received in the slot, thereby coupling the terminal end of the trough member to the coupler.

    [0014] In another aspect, the invention relates to a coupler for a cable trough system including a body including a bottom wall and two side walls defining a trough, the body having a body terminal end defining an overlap region, the overlap region being sized to slideably receive a terminal end of a trough member along a longitudinal direction of the body, and a locking element including a spring and a spring release mechanism, the spring including first and second spring arms extending generally in opposition to one another in a plane generally parallel to the longitudinal direction, and the locking element defining a hole configured to receive a fastener.

    [0015] In yet another aspect, the invention relates to a coupler for a cable trough system including a body including walls defining a bottom wall and two side walls defining a trough, the body having a body terminal end defining an overlap region, the overlap region being sized to slideably receive a terminal end of a trough member along a longitudinal direction of the body, a spring including first and second spring arms extending at an angle with respect to one another, and a locking element coupled to the body and including a main body with a railway on which a spring release mechanism slides, the locking element including an unlocked position, in which the spring release mechanism is held by the locking element in engagement with the spring, and a locked position, in which the spring release slides along the railway in the longitudinal direction to release the spring.

    [0016] In a further aspect, the invention relates to a locking element for coupling a coupler with a trough member, the locking element including a main body defining a hole configured to receive an attaching element and a first railway extending in a longitudinal direction away from the main body, the first railway defining first and second notches at an end of the railway, the first and second notches being positioned to generally oppose one another. The locking element also includes a first spring including first and second arms aligned in a plane generally parallel with respect to the longitudinal direction, the first spring being coupled to the main body, and a first spring release mechanism configured to slide along the first railway in a locked and an unlocked position, wherein the first spring release mechanism includes first and second ramps positioned such that, as the first spring release mechanism is slid from the locked position to the unlocked position, the first and second ramps push the first railway and then engage the first and second notches to hold the first spring release mechanism in the unlocked position.

    Brief Description of the Drawings



    [0017] 

    FIG. 1 is a perspective view of an embodiment of a trough system in accordance with the present invention shown in exploded form.

    FIG. 2 is a perspective view of an embodiment of a coupler in accordance with the present invention.

    FIG. 3 is an end view of the coupler shown in FIG. 2.

    FIG. 4 is a side view of the coupler shown in FIG. 2.

    FIG. 5 is a bottom view of the coupler shown in FIG. 2.

    FIG. 6 is a perspective view of the coupler of FIG. 2 with one of the locking elements shown in exploded view.

    FIG. 7 is a perspective view of an embodiment of a locking element in accordance with the present invention.

    FIG. 8 is another perspective view of the locking element shown in FIG. 7 with one spring and spring release shown in exploded view.

    FIG. 9 is an inside view of the locking element shown in FIG. 7.

    FIG. 10 is a top view of the locking element shown in FIG. 7.

    FIG. 11 is an end view of the locking element shown in FIG. 7.

    FIG. 12 is cross-sectional top view along line 12-12 of FIG. 9.

    FIG. 13 is a perspective view of an embodiment of a trough member in accordance with the present invention.

    FIG. 14 is an end view of the trough member shown in FIG. 13.

    FIG. 15 is a side view of the trough member shown in FIG. 13.

    FIG. 16 is a side view of an embodiment of a trough system including a coupler and two trough members in exploded view in accordance with the present invention.

    FIG. 17 is a bottom view of the trough system shown in FIG. 16.

    FIG. 18 is a perspective view of the trough system shown in FIG. 16 in assembled form.

    FIG. 19 is an enlarged perspective view of a portion of the trough system shown in FIG. 18 from a different angle.

    FIG. 20 is an end view of the trough system shown in FIG. 18.

    FIG. 21 is a side view of the trough system shown in FIG. 18.

    FIG. 22 is a bottom view of the trough system shown in FIG. 18.

    FIG. 23 is an enlarged cross-sectional view taken along line 23-23 of FIG. 21 showing a portion of the trough system including a locking element.

    FIG. 24 is a perspective view of another embodiment of a locking element in accordance with the present invention.

    FIG. 25 is another perspective view of the locking element shown in FIG. 24.

    FIG. 26 is an inside view of the locking element shown in FIG. 24.

    FIG. 27 is a top view of the locking element shown in FIG. 24 in a locked position.

    FIG. 28 is an end view of the locking element shown in FIG. 24.

    FIG. 29 is a side view of the locking element shown in FIG. 24.

    FIG. 30 is a cross-sectional side view along line 30-30 of FIG. 27.

    FIG. 31 is a cross-sectional side view along line 31-31 of FIG. 27.

    FIG. 32 is a top view of the locking element shown in FIG. 24 in an unlocked position.

    FIG. 33 is a cross-sectional side view along line 33-33 of FIG. 32.

    FIG. 34 is a cross-sectional side view along line 34-34 of FIG. 32.

    FIG. 35 is a perspective view of the locking element shown in FIG. 24 with the spring releases removed.

    FIG. 36 is another perspective view of the locking element shown in FIG. 35.

    FIG. 37 is an inside view of the locking element shown in FIG. 35.

    FIG. 38 is a top view of the locking element shown in FIG. 35.

    FIG. 39 is an end view of the locking element shown in FIG. 35.

    FIG. 40 is a side view of the locking element shown in FIG. 35.

    FIG. 41 is a side, partial cross-sectional view of the locking element of FIG. 24 detached from a coupler.

    FIG. 42 is a side, partial cross-sectional view of the locking element of FIG. 41 partially inserted into the coupler.

    FIG. 43 is a side, partial cross-sectional view of the locking element of FIG. 41 fully inserted into the coupler.

    FIG. 44 is a side view of the locking element shown in FIG. 24 with the spring releases removed and including an attaching element.

    FIG. 45 is a side view of the locking element shown in FIG. 24 coupled to a coupler and to a mounting bracket.

    FIG. 46 is a front view of the locking element, coupler, and mounting bracket shown in FIG. 45.

    FIG. 47 is a cross-sectional view along line 47-47 showing a portion of the locking element, coupler, and mounting bracket shown in FIG. 45.


    Detailed Description of the Preferred Embodiment



    [0018] As used herein, the terms "couple" and "coupled" mean to join or attach one element in relation to a second element, whether the attachment is made directly with the second element or indirectly through intermediate components. As used herein, the term "slot" means a space defined by one or more surfaces and may include, without limitation, T-slots, closed slots, flanges, and projections.

    [0019] Figure 1 shows an example of a trough system 10 that is an embodiment of the present invention. The system 10 includes a coupler 100 for interconnecting trough members 300A and 300B. The coupler 100 includes a locking mechanism having at least one locking element. In the embodiment shown, four locking elements 107A, 107B, 107C, and 107D are providing secure connection between the coupler 100 and a trough member, such as trough member 300A. The coupler 100 may also provide secure connections with one or more additional trough members, such as trough member 300B. In addition, the coupler may be configured to release the connections between the coupler 100 and the trough members 300A and 300B. In an example embodiment, the locking mechanism is tool-less (i.e., the locking mechanism does not require the use of a separate tool). However, locking mechanisms required to be engaged by an auxiliary tool are also within the scope of the present invention.

    I. Coupler



    [0020] As shown in FIGS. 2-6, the coupler 100 includes a first guiding surface 101 and a second guiding surface 102 at least partially surrounding the first guiding surface 101, as well as a first coupler end 110 and a second coupler end 111. A spacing 103 is defined between the first guiding surface 101 and the second guiding surface 102. The spacing 103 is sized to receive a trough member (see, e.g., trough member 300 of FIGS. 12-14) or other trough system component inserted into the spacing 103 in a longitudinal direction 190.

    [0021] As shown in FIG. 3, the first guiding surface 101 of the coupler 100 is generally in the shape of a trough, including a first side wall portion 104 and a second side wall portion 105, as well as a bottom wall portion 106 joining the first and second side wall portions 104 and 105. As used herein, the term "trough" means any structure that defines an interior in which an element such as an optical cable can be maintained. The second guiding surface 102 is also in the shape of a trough. A midpoint or midsection 175 divides the coupler 100 into first and second halves 176 and 177, and generally surrounds at least a portion of the first guiding surface 101.

    [0022] As indicated above, the locking mechanism of the coupler is used to secure trough members to the ends 110 and 111 of the coupler 100. The locking elements 107A, 107B, 107C, and 107D of the locking mechanism are coupled to an exterior of the coupler 100, using, for example, a clip 208 as shown in FIGS. 7-10 and described below.

    [0023] Although the first locking element 107A is described in detail below, the second, third, and fourth locking elements 107B, 107C, and 107D have an identical structure and function similarly in the illustrated embodiment.

    [0024] The locking element 107A is shown in isolation in FIGS. 7-12. The locking element 107A includes a main body 200, springs 210A and 210B, and spring releases 220A and 220B. The main body 200 includes a first portion 202 and a second portion 204 coupled by a bridge 203. The main body further includes railways 205A and 205B, T-shaped detents 207A and 207B, and the clip 208.

    [0025] The spring 210A, shown in exploded form in FIG. 8, includes first and second arms 211 and 212 coupled by a bridge 213. The first and second arms 211 and 212 are positioned to extend generally at an angle in opposition to one another. As used herein, to extend "generally in opposition" means to extend at diverging angles with respect to one another. In addition, the first and second arms are aligned generally in a plane. The spring 210A may be coupled to the coupler 100 by press-fitting the spring 210A into a slot 251 defined on the main body 200. The spring 210B is similarly configured. Preferably, springs 210A and 210B are one-piece, V-shaped leaf springs made of metal.

    [0026] Although the example springs 210A and 210B are shown, other spring configurations may also be used. For example, a spring including a single arm, or arms extending at different angles to those shown, may also be used.

    [0027] The spring release 220A includes a sliding portion 222A and a finger portion 223A with fingers 224 and 226. The sliding portion 222A defines an aperture 260 that is configured to slidingly engage and ride along the railway 205A between a locked position and an unlocked position. The spring release 220A is maintained on the railway 205A by the detent 207A that engages an edge 227 of the finger portion 223A as the spring release 220A is slid longitudinally in a direction away from the bridge 203 (i.e., the locked position).

    [0028] The fingers 224 and 226 of the finger portion 223A are positioned to engage the spring arms 211 and 212 as the spring release 220A is slid longitudinally in a direction towards the bridge 203 from the locked position to the unlocked position. In the locked position, as shown, for example, in FIGS. 7 and 9, the fingers 224 and 226 of the spring release 220A release the spring arms 211 and 212 of the spring 210A. As the spring release 220A is slid towards the bridge 203 and the unlocked position, the fingers 224 and 226 push the spring arms 211 and 212 towards one another.

    [0029] In a fully engaged or the unlocked position, as shown by the spring release 220B, the fingers 224 and 226 of the spring release 220B fully engage the spring arms 211 and 212 of the spring 210B. It is therefore possible for one spring release of the locking element 107A to be in the locked position, while the other spring release is in the unlocked position. For example, in FIG. 7, the spring release 220A is in the unlocked position, while the spring release 220B is in the locked position.

    [0030] With no external force being applied, the spring release 220A is forced by the spring 210A into the locked position. However, the spring release, as is shown by the spring release 220B in FIGS. 7 and 12, may be maintained in the unlocked position by the detent 207B that engages an edge 228 of the sliding portion 222B of the spring release 220B when the spring release is placed in the fully unlocked position. The spring release 220A is similarly configured.

    [0031] Other configurations for the spring release, and specifically, the fingers, are also possible. For example, the fingers may be positioned to engage a portion of the spring arms closer to the bridge of the spring, thereby allowing for greater movement of the spring arms by the fingers. In addition, the spring release may optionally be removed from the locking element.

    [0032] As noted above, the locking element 107A is coupled to the coupler 100 using the clip 208 extending from the bridge 203 of the locking element 107A, as is shown in FIGS. 7-10 and 12. As shown in FIGS. 2 and 6, the clip 208 is sized to extend through an interior portion defined by walls 108 on the coupler 100, and detents 209 on the end of the clip 208 engage an edge of the walls 108 facing the coupler, thereby coupling the locking element 107A to the coupler 100. This configuration for attaching the locking element to the coupler may be advantageous, for example, because the locking element can be snap-fit onto the coupler at the desired time. In addition, it is possible to replace a locking element, if needed.

    II. Trough



    [0033] Referring now to FIGS. 13-15, an example embodiment of a trough member 300 is shown according to the present invention. As used herein, the term trough member is used to refer to any trough, fitting, railway, raceway, or similarly configured component including any number of ends. Although a specific embodiment of a trough member is shown in and described with respect to FIGS. 13-15, any other trough member may also be used.

    [0034] The trough member 300 includes a first terminal end 302 and a second terminal end 303. The trough member 300 is generally in the shape of a trough including first and second side walls 305 and 306 coupled by a bottom wall 307, thereby defining an interior surface 308 and an exterior surface 309. Walls 305, 306 and 307 are each generally planar. The exterior surface 309 define one or more slots 310 on the side walls 305 and 306 and bottom wall 307. The slots 310 extend in a longitudinal direction 301 of the trough member 300 from the first terminal end 302 to the second terminal end 303. Typically, slots will be provided for at least one, and preferably each, locking element, as described further below.

    [0035] Alternative configurations and placement for the slots 310 are also possible. For example, the slots 310 may be T-slots, as shown on the example embodiment of the trough 300. As used herein, the term "T-slot" means a slot having a narrow access opening and a wider interior region. In addition, the slots 310 may also be flanges or opposing projections. For example, the trough member 300B, known to those skilled in the art as a fitting and shown in FIGS. 16-23, includes slots defined by flanges 370 on side walls (see FIG. 19) and slots defined by opposing projections 371 and 372 on the bottom wall (see FIG. 22), rather than T-slots. Other configurations are possible. Preferred slot configurations include at least two opposing surfaces that extend in the longitudinal direction 301, although a single surface may also be used. The slots 310 may not extend fully between the terminal ends of the trough member. The placement of the slots on the exterior surface of the trough members may be altered. More or fewer slots may also be provided.

    III. System



    [0036] Referring now to FIGS. 16-23, an embodiment of a trough system 400 is shown including the coupler 100 as well as first and second trough members 300A and 300B. As illustrated, the terminal ends of the trough members 300A and 300B may be slidingly engaged in the spacing 103 between the first and second guiding surfaces 101 and 102 of the coupler 100. In other words, the thickness of the walls of each of the trough members 300A and 300B, or the distance between the inner and outer surfaces, are sized to fit within the spacing 103 of the coupler 100. The coupler 100 overlaps the terminal ends of each of the trough members 300A and 300B to form the coupling, the overlap defining an overlap region.

    [0037] As each trough member is inserted into a respective end of the coupler 100, a portion of each locking element is slidingly received within each corresponding slot. For example, as shown in FIG. 19, at least part of the first portion 202 of the locking element 107A is partially received within the slot 310 of the trough member 300A. Similarly, at least part of the second portion 204 of the locking element 107A is received in a corresponding slot 310 of trough member 300B.

    [0038] As shown in the cross-sectional view of FIG. 23 taken along line 23-23 of FIG. 21, the springs 210A and 210B and finger portions 223A and 223B of locking element 107B are positioned within the slot 310 of the trough members 300A and 300B. With a finger portion, such as finger portion 223B, in the locked position, the spring arms 211 and 212 of the spring 210B resiliently engage opposing portions 315 and 316 of the slot 310, thereby maintaining the locking element 107B within the slot 310 and coupling the coupler 100 to the trough member 300B.

    [0039] The opposing portions 315 and 316 each extend generally parallel to the longitudinal direction 190 of the coupler 100. Likewise, the forces applied by the spring arms 211 and 212 are generally exerted in opposite directions aligned in a plane extending generally parallel to the longitudinal direction 190 of the coupler 100 along one of the walls of the trough.

    [0040] In contrast, with a finger portion, such as finger portion 223A, in the unlocked position, the fingers 224 and 226 fully engage spring arms 211 and 212 of the spring 210A, pushing the arms towards each other and away from the portions 315 and 316 so that the trough member 300A can be slid in the longitudinal direction 190 out of the coupler 100, thereby uncoupling the trough member 300A from the coupler 100.

    [0041] The other locking elements 107A, 107C, and 107D function in a manner similar to that of the locking element 107B illustrated.

    IV. Method of Use



    [0042] An example method for coupling one or more trough members to the coupler 100 in accordance with the present invention is as follows. The locking elements 107A, 107B, 107C, and 107D may be in the unlocked or locked position. The terminal end 302 of the trough member 300A may be inserted into the coupler 100, thereby causing the spring 210A and spring release 220A portions of each locking element 107A, 107B, 107C, and 107D to be received in the slots 310 of the trough member 300A. The angled shape of the spring arms 211 and 212 of each spring is angled toward the direction of insertion of the terminal end 302 of the trough member 300A to allow the trough member 300A to be inserted with little resistance from the spring.

    [0043] With the trough member 300A fully inserted into the coupler 100 and the locking elements in the locked position, the spring arms 211 and 212 of each spring push against opposing portions 315 and 316 of each slot 310. Removal of the trough member 300A is resisted by the angled shape of the arms 211 and 212 and ends of the arms grasping or embedding into the opposing portions 315 and 316 of the trough member 300A. The second trough member 300B may be coupled to the second coupler end 111 of the coupler 100 in a similar manner.

    [0044] An example method of removing the trough member 300A in accordance with the present invention includes sliding the spring release 220A of each locking element to the unlocked position, thereby removing the pushing force of the spring arms 211 and 212 from the opposing portions 315 and 316 of the slots 310. The trough member 300A may then be removed. The second trough member 300B may be removed in a similar fashion.

    [0045] Alternative embodiments to those provided herein are also possible. For example, it is possible to alter the configuration of the engagement between the locking elements and the slots on the trough members. For example, it may only be necessary to provide a spring with a single spring arm that engages an opposing portion (e.g., a flange) of the trough. In addition, a separate fastener, such as a screw, could also be used in combination with the locking elements.

    [0046] The coupler 100 and trough members 300, 300A, and 300B are presented herein by way of example only, and other configurations are possible. For example, a coupler may be configured to be coupled to more than two trough members, therefore including more than the first and second coupler ends. Further, a greater number of locking elements and/or springs may be presented for each coupler end, or, alternatively, fewer locking elements and/or springs, for example, one, may be used.

    IV. Alternative Locking Element



    [0047] Referring now to FIGS. 24-40, another example embodiment of a locking element 400 is shown. The locking element 400 is similar to the locking elements 107A-107D described above, with the noted differences.

    [0048] The locking element 400 generally includes a main body 401, springs 410A and 410B, spring releases 420A and 420B, and a clip 408. The springs 410A and 410B are configured and function in a manner similar to springs 210A and 210B.

    [0049] The spring releases 420A and 420B include first ramps 505A and 505B (see FIGS. 30, 31, 33, and 34). The spring releases 420A and 420B also include second ramps (not shown) positioned generally opposite to the first ramps 505A and 505B and configured in a similar manner. The main body 401 includes railways 405A and 405B that define notches 510A, 512A and 510B, 512B (see FIGS. 35-40). In the locked position (as shown in FIGS. 27, 30, and 31), the first ramps 505A and 505B (as well as the second ramps) of the spring releases 420A and 420B are positioned beyond ends 509A and 509B of the railways 405A and 405B.

    [0050] The railways 405A and 405B also include buttons 520A and 520B positioned to extend through apertures 590A and 590B defined in the spring releases 420A and 420B. The apertures 590A and 590B are sized to allow the spring releases 420A and 420B to slide along the railways 405A and 405B. The spring releases 420A and 420B also include recesses 591 positioned adjacent a portion of the apertures 590A and 590B to allow for greater access to the buttons 520A and 520, as described further below. The railways 420A and 420B also include indicators 592 and 593 to indicate whether each spring release 420A and 420B of the locking element 400 is in the locked or unlocked position. In the example embodiment shown, the indicators 592 and 593 are pictorial (showing a padlock in the locked and unlocked positions). However, other visual indicators, such as alphanumeric wording or colors could also be used.

    [0051] As the spring releases 420A and 420B are slid towards the unlocked position, the first ramps 505A and 505B (as well as the second ramps) engage the ends 509A and 509B of the railways 405A and 405B, push the railways 405A and 405B generally in a direction Y (see FIGS. 31 and 40), and generally travel along the railways 405A and 405B.

    [0052] Once the first ramps 505A and 505B (as well as the second ramps) have traveled over the ends 509A and 509B of the railways 405A and 405B, the ramps are received in the notches 510A, 512A and 510B, 512B, respectively, and the railways 405A and 405B are allowed to move back in a direction opposite to the direction Y. In this position (as shown in FIGS. 32-34), the ramps are held within the notches, and the spring releases 420A and 420B are retained in the unlocked position.

    [0053] When it is necessary to move the spring releases 420A and 420B back to the locked position, one or both buttons 520A and 520B disposed on the railways 405A and 405B may be pushed, thereby causing the railways 405A and/or 405B to move generally in the direction Y and the first ramps 505A and 505B (as well as the second ramps) to disengage from the notches 510A, 512A and 510B, 512B. In this configuration, the spring releases 420A and 420B are free to move back to the locked position (as shown in FIGS. 27, 30, and 31).

    [0054] Referring now to FIG. 41, the locking element 400 and a coupler 550 are shown positioned adjacent to one another to illustrate how the locking element 400 may be coupled to the coupler 550. Referring now to FIG. 42, the clip 408 of the locking element 400 may be inserted into an aperture 580 defined by shoulders 551 of the coupler 550. As the clip 408 is pushed through the aperture 580, the clip 408 is compressed so that arms 571 of the clip 408 move towards one another. Referring now to FIG. 43, the clip 408 of the locking element 400 is shown fully inserted and coupled to the coupler 550. Detents 409 on the ends of the arms 571 engage the shoulders 551 of the coupler 550 to retain the locking element 400 on the coupler 550.

    [0055] The locking element 400 also includes an hole 530 defined in the main body 401. As shown in FIG. 44, the hole 530 is configured to receive an attaching element 540. In the example embodiment shown, the attaching element 540 is a screw, although other attaching elements such as bolts, rivets, or other fasteners may be used. An end 545 of the attaching element 540 extends through the hole 530.

    [0056] Referring now to FIGS. 45-47, the locking element 400 is shown coupled to a coupler 550 by the clip 408. In addition, a mounting bracket 560 is coupled to the coupler 550 by the attaching element 540. The mounting bracket 560 may generally be any structure used to hold a trough system in place. For example, as shown in FIG. 46, the mounting bracket 560 may be formed in various shapes to position the coupler 550 as desired. The mounting bracket 560 may, in turn, be coupled to a support structure located above, below, or adjacent to the coupler 550. In the example embodiment shown, the mounting bracket 560 is part of a threaded rod bracket kit including threaded rod 562 and nuts 564. Other configurations are possible.

    [0057] As illustrated, the attaching element 540 may be used to couple the mounting bracket 560 to the coupler 550. In addition, the end 545 of the attaching element 540 may engage knobs 570 extending from the arms 571 in a direction opposite to detents 409 on the clip 408. The end 545 of the attaching element 540 is positioned so that the arms 571 of the clip 408 are not allowed to move towards one another (as shown in FIG. 42). Therefore, the locking element 400 may be further retained on the coupler 550.

    [0058] The above specification, examples and data provide a complete description of the manufacture and of the invention. The scope of the invention is defined by the appended claims.


    Claims

    1. A coupler (100) for a cable trough system, the coupler comprising:

    a body (101) including one or more walls (104, 105) defining a trough having an outer surface and an inner surface, the body having a body terminal end sized to receive a terminal end of a trough member along a longitudinal direction of the body; and

    a locking element (107,400) coupled to the outer surface of the trough, the locking element including:

    a spring (210A, 210B, 410A, 410B) with at least one arm (211, 212) that extends to engage a portion of an external surface of the trough member as the trough member is received in the body terminal end of the coupler;

    a spring release (220A, 220B, 420A, 420B) configured to slide in the longitudinal direction between an unlocked state and a locked state, wherein the spring release disengages the arm of the spring from the terminal end of the trough member while the terminal end of the trough member is fully inserted in the body terminal end of the body of the coupler when the spring release is in the unlocked state, and wherein the spring release allows the arm of the spring to engage the terminal end of the trough member when the spring release is in the locked state; and

    a release member (520A, 520B) that, when actuated, allows the spring release to move in the longitudinal direction from the unlocked state to the locked state.


     
    2. The coupler of claim 1, wherein the locking element further includes a clip (208, 408, 409) to couple the locking element to the body of the coupler, the clip including first and second arms with detents formed on ends of each of the arms to engage the body of the coupler.
     
    3. The coupler of claim 2, further comprising a fastener (540) extending through a hole in the locking element, wherein the fastener is positioned to maintain the first and second arms of the clip in a direction generally away from one another so that the locking element is retained on the body of the coupler.
     
    4. The coupler of claim 1, wherein the spring (210, 410) includes opposing arms, and the spring release (220, 420) includes fingers (224, 226) positioned to engage the arms of the spring.
     
    5. The coupler of claim 4, wherein the fingers of the spring release (420) compress the arms of the spring toward one another when the spring release is in the unlocked position.
     
    6. The coupler of claim 4, wherein the arms of the spring extend generally in opposition to one another in a plane generally parallel to the longitudinal direction.
     
    7. The coupler of claim 1, wherein the spring release is forced by the spring into the locked position.
     
    8. The coupler of claim 7, wherein, when the release member (420A, 420B) is actuated, a railway (405A, 405B) is moveable so that a notch (510A, 510B, 512A, 512B) can clear a ramp (505A, 505B) to allow the spring release to slide from the unlocked to the locked position.
     
    9. A method for using a coupler (100) according to claim 1 and a cable trough member (300), the method comprising steps of:

    providing a first terminal end (302) of the trough member (300) coupled to the coupler (100), wherein the first terminal end (302) was inserted in a longitudinal direction (190) into a spacing (103) of the coupler (100), the longitudinal direction (190) extending along the trough member (300) from the first terminal end (302) to a second opposite terminal end (303);

    sliding a spring release (220, 420) in the longitudinal direction (190) to disengage a spring (210, 410) from portions of the trough member (300); and

    removing the first terminal end (302) of the trough member (300) from the spacing (103).


     
    10. The method of claim 9, wherein the sliding step further comprises a step of sliding the spring release (420) in the longitudinal direction (190) to disengage first and second arms of the spring (410) from opposing portions of the trough member (300).
     
    11. The method of claim 10, wherein the sliding step further comprises a step of compressing first and second arms of the spring (410) in the opposing directions generally aligned in a plane generally parallel to that of the longitudinal direction (190).
     


    Ansprüche

    1. Koppler für ein Kabelrinnensystem, wobei der Koppler Folgendes umfasst: einen Körper (101), der eine oder mehrere Wände (104, 105) aufweist, die eine Rinne mit einer Außenfläche und einer Innenfläche definieren, wobei der Körper einen Anschlussend-Körper aufweist, der bemessen ist, um ein Endstück eines Rinnenelements entlang einer Längsrichtung des Körpers aufzunehmen; und
    ein Verriegelungselement (107, 400), das mit der Außenfläche der Rinne gekoppelt ist, wobei das Verriegelungselement Folgendes umfasst:

    eine Feder (210A, 210B, 410A, 410B) mit mindestens einem Arm (211, 212), die sich erstreckt, um in einen Abschnitt einer Außenfläche des Rinnenelements einzugreifen, wenn das Rinnenelement im Anschlussend-Körper des Kopplers aufgenommen wird;

    eine Federentriegelung (220A, 220B, 420A, 420B), die so konfiguriert ist, dass sie in Längsrichtung zwischen einem nicht verriegelten Zustand und einem verriegelten Zustand gleitet, wobei die Federentriegelung den Arm der Feder von dem Anschlussende des Rinnenelements löst, wogegen das Anschlussende des Rinnenelements vollständig in den Anschlussend-Körper des Kopplerkörpers eingeführt ist, wenn sich die Federentriegelung im entriegelten Zustand befindet, und wobei die Federentriegelung es dem Arm der Feder ermöglicht, in das Anschlussende des Rinnenelements einzugreifen, wenn sich die Federentriegelung im verriegelten Zustand befindet;

    ein Entriegelungselement (520A, 520B), das bei Betätigung die Bewegung der Federentriegelung in Längsrichtung aus dem entriegelten Zustand in den verriegelten Zustand ermöglicht.


     
    2. Koppler nach Anspruch 1, wobei das Verriegelungselement ferner eine Klemme (208, 408, 409) zum Koppeln des Verriegelungselements mit dem Körper des Kopplers umfasst, wobei die Klemme einen ersten und einen zweiten Arm mit Arretierungen aufweist, die an Enden von jedem der Arme ausgebildet sind, um in den Körper des Kopplers einzugreifen.
     
    3. Koppler nach Anspruch 2, ferner umfassend ein Befestigungselement (540), das sich durch ein Loch in dem Verriegelungselement erstreckt, wobei das Befestigungselement positioniert ist, um den ersten und zweiten Arm der Klemme prinzipiell in einer Richtung voneinander entfernt zu halten, so dass das Verriegelungselement am Körper des Kopplers gehalten wird.
     
    4. Koppler nach Anspruch 1, wobei die Feder (210, 410) gegenüberliegende Arme aufweist und die Federentriegelung (220, 420) Finger (224, 226) umfasst, die so positioniert sind, dass sie in die Arme der Feder eingreifen.
     
    5. Koppler nach Anspruch 4, wobei die Finger der Federentrieglung die Arme der Feder gegeneinander zu drücken, wenn sich die Federentriegelung in der entriegelten Position befindet.
     
    6. Koppler nach Anspruch 4, wobei sich die Arme der Feder generell gegenläufig in einer Ebene erstrecken, die im Allgemeinen parallel zur Längsrichtung verläuft.
     
    7. Koppler nach Anspruch 1, wobei die Federentriegelung durch die Feder in die verriegelte Position gedrückt wird.
     
    8. Koppler nach Anspruch 7, wobei, bei Betätigung des Entriegelungselements(420A, 420B, eine Schiene (405A, 405B) bewegt werden kann, so dass eine Kerbe (510A, 510B, 512A, 512B) eine Rampe (505A, 505B) freigeben kann, um zu ermöglichen, dass die Federentriegelung von der entriegelten in die verriegelte Position gleitet.
     
    9. Verfahren zur Verwendung eines Kopplers (100) und eines Kabelrinnenelements (300), wobei das Verfahren die folgenden Schritte umfasst:

    Bereitstellen eines ersten Anschlussendes (302) des Rinnenelements (300), das mit dem Koppler (100) gekoppelt ist, wobei das erste Anschlussende (302) in Längsrichtung (190) in einen Zwischenraum (103) des Kopplers (100) eingeführt wurde, wobei sich die Längsrichtung (190) entlang des Rinnenelements(300) von dem ersten Anschlussende (302) zu einem zweiten gegenüberliegenden Anschlussende (303) erstreckt;

    Verschieben einer Federentriegelung (420) in Längsrichtung (190), um eine Feder (410) von Abschnitten des Rinnenelements (300) zu lösen; und

    Entfernen des ersten Anschlussendes (302) des Rinnenelements (300) aus dem Zwischenraum (103).


     
    10. Verfahren nach Anspruch 9, wobei Schritt des Verschiebens ferner einen Schritt des Verschiebens der Federentriegelung (420) in Längsrichtung (190) umfasst, um den ersten und zweiten Arm der Feder (410) von gegenüberliegenden Abschnitten des Rinnenelements (300) zu lösen.
     
    11. Verfahren nach Anspruch 10, wobei der Schritt des Verschiebens ferner einen Schritt zum Zusammenpressen von ersten und zweiten Armen der Feder (410) in den entgegengesetzten Richtungen umfasst, die generell in einer Ebene ausgerichtet sind, die im Allgemeinen parallel zu derjenigen der Längsrichtung (190) verläuft.
     


    Revendications

    1. Élément de couplage (100) pour un système de goulotte à câbles, l'élément de couplage comprenant :

    un corps (101) incluant une ou plusieurs parois (104, 105) définissant une goulotte présentant une surface extérieure et une surface intérieure, le corps présentant une extrémité terminale de corps dimensionnée pour recevoir une extrémité terminale d'un élément de goulotte le long d'une direction longitudinale du corps ; et

    un élément de verrouillage (107, 400) couplé à la surface extérieure de la goulotte, l'élément de verrouillage incluant :

    un ressort (210A, 210B, 410A, 410B) avec au moins un bras (211, 212) qui s'étend pour mettre en prise une partie d'une surface externe de l'élément de goulotte tandis que l'élément de goulotte est reçu dans l'extrémité terminale de corps de l'élément de couplage ;

    un libérateur de ressort (220A, 220B, 420A, 420B) configuré pour coulisser dans la direction longitudinale entre un état déverrouillé et un état verrouillé, sachant que le libérateur de ressort met hors prise le bras du ressort par rapport à l'extrémité terminale de l'élément de goulotte tandis que l'extrémité terminale de l'élément de goulotte est entièrement insérée dans l'extrémité terminale du corps de l'élément de couplage lorsque le libérateur de ressort est dans l'état déverrouillé, et sachant que le libérateur de ressort permet au bras du ressort de mettre en prise l'extrémité terminale de l'élément de goulotte lorsque le libérateur de ressort est dans l'état verrouillé ; et

    un élément de libération (520A, 520B) qui, lorsqu'il est actionné, permet au libérateur de ressort de se déplacer dans la direction longitudinale de l'état déverrouillé à l'état verrouillé.


     
    2. L'élément de couplage de la revendication 1, sachant que l'élément de verrouillage inclut en outre une attache (208, 408, 409) pour coupler l'élément de verrouillage au corps de l'élément de couplage, l'attache incluant un premier et un deuxième bras avec des crans formés sur des extrémités de chacun des bras pour mettre en prise le corps de l'élément de couplage.
     
    3. L'élément de couplage de la revendication 2, comprenant en outre une fixation (540) s'étendant à travers un trou dans l'élément de verrouillage, sachant que la fixation est positionnée pour maintenir le premier et le deuxième bras de l'attache dans une direction les éloignant sensiblement l'un de l'autre de sorte que l'élément de verrouillage soit retenu sur le corps de l'élément de couplage.
     
    4. L'élément de couplage de la revendication 1, sachant que le ressort (210, 410) inclut des bras opposés, et le libérateur de ressort (220, 420) inclut des doigts (224, 226) positionnés pour mettre en prise les bras du ressort.
     
    5. L'élément de couplage de la revendication 4, sachant que les doigts du libérateur de ressort (420) compriment les bras du ressort l'un vers l'autre lorsque le libérateur de ressort est dans la position déverrouillée.
     
    6. L'élément de couplage de la revendication 4, sachant que les bras du ressort s'étendent sensiblement en opposition l'un à l'autre dans un plan sensiblement parallèle à la direction longitudinale.
     
    7. L'élément de couplage de la revendication 1, sachant que le libérateur de ressort est forcé par le ressort à se mettre dans la position verrouillée.
     
    8. L'élément de couplage de la revendication 7, sachant que, lorsque l'élément de libération (420A, 420B) est actionné, une voie de rail (405A, 405B) est mobile de sorte qu'une encoche (510A, 510B, 512A, 512B) puisse dégager une rampe (505A, 505B) pour permettre au libérateur de ressort de coulisser de la position déverrouillée à la position verrouillée.
     
    9. Procédé servant à utiliser un élément de couplage (100) selon la revendication 1 et un élément de goulotte à câbles (300), le procédé comprenant les étapes de :

    fourniture d'une première extrémité terminale (302) de l'élément de goulotte (300) couplée à l'élément de couplage (100), sachant que la première extrémité terminale (302) a été insérée dans une direction longitudinale (190) dans un espacement (103) de l'élément de couplage (100), la direction longitudinale (190) s'étendant le long de l'élément de goulotte (300) de la première extrémité terminale (302) à une deuxième extrémité terminale (303) opposée ;

    coulissement d'un libérateur de ressort (220, 420) dans la direction longitudinale (190) pour mettre hors prise un ressort (210, 410) par rapport à des parties de l'élément de goulotte (300) ; et

    enlèvement de la première extrémité terminale (302) de l'élément de goulotte (300) par rapport à l'espacement (103).


     
    10. Le procédé de la revendication 9, sachant que l'étape de coulissement comprend en outre une étape de coulissement du libérateur de ressort (420) dans la direction longitudinale (190) pour mettre hors prise un premier et un deuxième bras du ressort (410) par rapport à des parties opposées de l'élément de goulotte (300).
     
    11. Le procédé de la revendication 10, sachant que l'étape de coulissement comprend en outre une étape de compression d'un premier et d'un deuxième bras du ressort (410) dans les directions opposées sensiblement alignées dans un plan sensiblement parallèle à celui de la direction longitudinale (190).
     




    Drawing




























































































    Cited references

    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description