MXPA98000649A

MXPA98000649A - Mounting cable distribution box in gan

Info

Publication number: MXPA98000649A
Application number: MXPA/A/1998/000649A
Authority: MX
Inventors: C Carlson Robert Jr; L Ott Conrad; Maynard Charles
Original assignee: The Siemon Company
Priority date: 1996-05-23
Filing date: 1998-01-22
Publication date: 1998-04-01

Abstract

A box or cable distribution enclosure (10), mounted on a hook, is presented. The cable distribution box (10) includes a tray (26) that slides back and forth in the cable distribution box (10), the tray includes an adapter plate bracket (28) which receives a plurality of adapter plates (92). The adapter plate clamp (28) retains up to 12 adapter plates (92), each of which retains a variety of adapters. In fiber optic cable applications, each adapter plate (92) can hold 6 duplex adapters, or 12 fibers, offering a density of 144 fiber.

Description

HANGING CABLE DISTRIBUTION BOX IN HOOK DESCRIPTION OF THE INVENTION The invention relates generally to cable distribution boxes, and in particular to a cable distribution center that has a high cable density and provides easy access to cable adapters. After the cable is taken to a building to be used to transmit telephone (voice), cable (video, or computer) signals, the signals are distributed throughout the building to typically each desk that requires access to the information that is needed. It is transmitting. To facilitate that distribution, a closure used to store and handle fiber dispersion is typically used. In muchoe casoe, up to 72 h. they are distributed in a single confinement and several of them are attached to a hook. In larger systems, a room full of hooks serves as a central repository from which thousands of fibers are distributed. Due to the increasing need for more fibers, space has become a problem, therefore, the need for enclosures has arisen, with the ability to effectively distribute a higher amount of fiber within basically the same volume. Some disadvantages and deficiencies in the prior art have been overcome or diminished by the hook-up cable distribution closure of the invention. The cable distribution closure provides a solution with fiber - High density to finish up to 144 fibers, all within a space of 4 RMS, on a hook of 19, 23 inches. The closure is made of a high grade steel and both the front and rear doors have durable polycarbonate applicable with smoke. These front and rear doors use removable hinges that can be removed by activating the release mechanism of the hinge, also both doors are closed by means of closures supplied by the user, the entrance of the fiber is allowed on both sides, in the front part and Enclosure back, and conveniently located anchor points to tie the cable are provided to secure the incoming wires. A sliding tray facilitates access to the front and rear adapter through a unique system of pull and push pins and clamps. The fibers are connected by means of adapter plates, each adapter plate is able to accommodate up to 6 duplex adapters (two ports per adapter), so that, with 12 plates installed, the fiber count will be = 6x2x12 = 144. The adapter plates of 4 and 6 ports include Icon bags molded inside to assist in color coding and port identification. The mounting surface of the adapter plate is at an angle to bring the fiber's bending radius to a minimum, and to reduce the eye's potential for amalgamation by minimizing the likelihood of looking directly at the fibers - Lae activated fibers when working around the cable distribution enclosure. This adapter plates are reversible to allow the fiber cable to present an angle to the right or left. The cable distribution enclosure provides an effective system to distribute and handle up to 144 fibers within the same hook space that is normally used for up to 72 fibers. There are features designed in the cable distribution enclosure, which can be compared to another enclosure of 72 ports, facilitating the installation of the fiber, improving the handling of the fibers or reducing the manufacturing cost. BRIEF DESCRIPTION OF THE DRAWINGS Referring now to the drawings, where the same elements have the same figures in several figures: FIGURE 1, ee a perspective view of the cable die enclosure with the front opening open; FIGURE 2 is a side plan view of the cable distribution enclosure with the front cover open; FIGURE 3 is a perspective view of the cable distribution enclosure with the front cover closed; FIGURE 4A is a side view of the cable distribution enclosure with the front cover closed; FIGURE 4B is a side view of a portion of the cable distribution enclosure; FIGURES 5A-5E are several views of a cable grommet; FIGURES 6A-6C, are several views of the sliding tray; FIGURES 7A-7C are several views of a label retainer panel; FIGURES 8A-8C are several views of the adapter plate clamp; FIGURE 9 is an exploded perspective view of the mechanism for locking or closing the clamp of the adapter plate; FIGURE 10 is a cross-sectional view of the clamping mechanism of the adapter plate clamp; FIGURES 11A-11E are several views of the adapter plate. Fig. 1, is a perspective view of the enclosure or cable distribution box marked by 10, a front door 12, is in the open position, the front door 12, is mounted on the body of the cable distribution enclosure by the releasable hinge 14, this allows the front door 12, to be completely removed during service, but prevents the front door 12 from being inadvertently removed. As shown in Fig. 1, the hinge 14, is mounted in the cable distribution enclosure 10, and in the door 12, so that the sliding tray 26, can exit the cable distribution enclosure 10, without removing the door 12. The hinge 14, includes a spring mechanism placed inside, which can be overcome to remove the hinge 14, from the front door 12. A rear door (not shown), is provided opposite the door 12, with a Similar windable hinge. A recess 16 is formed in the front door 12, which receives a clasp 18, provided on top of the cable distribution enclosure 10. Many openings 22 are provided in the cable distribution enclosure to allow the cables to enter and they leave the confinement 10. As mentioned, the enclosure 10, is used as a distribution center for a large number of cables, a cable grommet 24, ee placed inside each opening 22, which will be described in detail. The base of the distribution enclosure 10, includes a sliding tray 26, which carries a clamp 28, of adapter plate. The clamp 28 receives a plurality of adapter plates, the details of which are described below. FIG. 2 shows a side view of the distribution enclosure 10, with the front door 12 open, as shown in FIG. 2, the rear part of the cable distribution enclosure 10 includes a snap 18, which allows that the rear door (not shown), is closed, the use of front and rear closing doors gives greater security the two ends of the distribution enclosure 10. The user only needs to provide a standard padlock to ensure the enclosure 10, and thus the cost reaching a confinement or safe box is minimal. The opening 22, shown in Fig. 2, includes a circular region 30, and a straight region 32, which intersects the circular region in an arc of region 30. The wires are inserted into the opening through region 32, and placed within the circular region 30. The region 30, is large enough to stop the fiber cables 14, which is the maximum density of the cable distribution enclosure 10. The eyelet 24, protects the cables from the metal edges of the cable. circular opening 30, and will be described in detail. Fig. 3 is a perspective view of the cable distribution enclosure 10, with the front door 12 closed as shown by the clasp 18, extending beyond the front door 12, to allow the closure of the box 10 , of cable distribution. When not closed or locked, the front door 12 is held in place by conventional 34 connectors 34 of the pin type 34, at each corner of the door. The rear door not shown, is similar to the front door 12. Fig. 4A, is a side view of the distribution box 10, shown in Fig. 3. Fig. 4B, is a side view of the opening 22 , without the eye 24, a notch 44 is formed, in the opening 22, to align the eye 24. Fig. 5A, ee a bottom view of the eyelet 24, the eyelet 24, has a lip 36, which is positioned on the outer side of the circular opening 30, a wall 42, extends away from the lip 36, at a right angle thereto. The flexible pins 40 are in the wall 42, to allow the eyelet 24 to fit into the circular opening 30. A projection 38 is aligned with a notch 44, shown in Fig. 4B, and formed in the circular opening 30. This protrusion or protuberance 38, aligns the opening in the eyelet 24, with the straight opening 32. The eyelet 24, is designed to be universal and fits in all openings, this is inlet and outlet. Typically, the cables pass through the openings 22, formed in the rear part of the enclosure or cable distribution box 10, and exit through the openings 22, in the front of the enclosure 10. The eyelet 24, is sized to accept 144, fiber optic cables, the depth of the wall 42 is limited, so that the exteneión of the same inside the box 10, cable distribution is minimal. Buttonhole 24 is sized to accept a standard polymer hood that covers the center of eyelet 24 to prevent dust. Figs. 5B-5E, are different views of eyelet 24, and are self-explanatory. Figs. 6A-6C, are selected views of the sliding tray 26, provided in the bottom of the box 10. As shown in the top view in Fig. 6A, the sliding tray 26, includes a plurality of openings 48, for receiving fasteners of wire handling (shown partially in Fig. 4A). Towards the back of the sliding tray, a cable knot 56 is formed in the tray 26. As shown in Fig. 6B, the tray 26 includes a raised portion 58, the pressing operation forms a metal strip having an opening in the rear part of the tray 26. A cable tie can be placed through the opening in the cable tie or knot 56, the placement of the tie 56, in the center of the sliding tray 26. allows this to be pulled forward or backward, without forcing the incoming cable and that is attached to the cable tie 56. The cable tie 56, retains the cable that goes out of the way of the loose wound fibers, and does not interfere with the sliding tray 26. Towards the back of the tray 26, closest to the cable tie opening 56, the openings 48 are arranged in circles, this allows the loose wire to enter from the rear of the enclosure 10, to be winding in a circular way in the bra is of wire 46, inserted into the openings 48. A pair of tabs 62, provide additional support to the wound cable. A series of holes 50, for mounting an adapter plate clamp, are provided near the center of the sliding tray 26. A second series of openings 48, are provided in the front of the tray 26, to stop additional fasteners 46, for handling of wire.

These fasteners 46, on the front of the tray are used to distribute the wires that leave the cable distribution box or enclosure 10. Two holes 52, receive latching pin connectors that stop the plate 20, label retainer on the sliding tray 26. A hole 54, is formed near the back of the tray 26, to mount a splice tray. When the fiber cables are joined together, either by melting or mechanical devices, the two-fiber section is put together, commonly put into a splice tray, typically, the splice tray is stored in a separate enclosure or enclosure outside the enclosure of cable distribution. However, the enclosure 10, of the present invention, is designed in such a way that the splice tray 60 can be attached to the sliding tray 26, and interfere with only a minimum number of fasteners 46. The outline of the tray of splice is shown as dotted line 60, this eliminates the need for a separate enclosure to hold the splice tray. E] hole 54, you can have a pressed plastic nut. A threaded rod and a flap nut can be used to mount the splice tray 60, on the sliding tray 26. FIG. 6C is a side view of the sliding tray 26. Lae Figs. 7A-7C, are selected views of the label retainer panel 20, the front face 70, of the label retainer panel receives transparent bags that stop labels that can be produced in a conventional printing press, the bags (not shown), can adhere to the retainer panel of label 20, by any conventional label, such as adhesive tape. The panel 20 includes two holes 68, shown in the * Fig. 7B, which are aligned with holes 52, in the sliding tray 26. A conventional snap pin connector couples the panel 20, label retainer to the sliding tray 26 , this allows the panel 20 to be removed during service from the distribution enclosure 10. The label retainer panel 20 includes a lip 64, and a lower 66, the lip 66, provides a base that is mounted on the sliding tray 26, the upper lip serves for cable management. In the event that a large number of wires are coming out of the front of the distribution enclosure 10, it may be more convenient to place the wires in the area formed by the upper lip 64, the 70th phase, and the lower lip 66, this prevents or it prevents the user from having to pass a large number of cables through the fasteners 46, located in the holes 43, near the front of the sliding tray 26. Figs. 8A-8C, are selected views of clamp 28, adapter plate. The clamp 28 includes a plurality of internal recesses 72, and an outer notch 74. A hole 76 allows the clamp 28 to be connected to a pin mechanism described later. The inner recesses 72 receive the adapter plates 92. FIG. 8B is a bottom view of the adapter plate bracket 28, which includes a plurality of holes 78, which are aligned with hole 50, in the sliding tray. 26. Fig. 8C, is a side view of the bracket 28, of adapter plate. Lae Figs. 9 and 10, illustrate the pin mechanism for allowing the sliding tray 26 to be locked in the center of the cable distribution enclosure 10, pulled out from the front or pulled out the back. As shown in Fig. 9, the pin mechanism includes a clamp 80, in L, having a hole 84, and an intermediate clamp 82, having tabs 90, a first hole 86, and another 88, clamp 80 in L, it is permanently attached to the upper part of the cable distribution enclosure 10, the rear surface of the L-clamp 80 makes contact with the front surface of the intermediate clamp 82, and the holes 84, 86, are aligned. A socket pin connector passes through the holes 84 and 86, the front surface of the intermediate clamp 82, of the lower tabs 90, makes contact with the rear surface of the clamp 28. The holes 88 and 76, are aligned and the it passes through a lanyard connector. The tongues 90 are placed inside the outer recess 74, when they engage the paeadoree, the clamp 28 is locked in a central position inside the enclosure or cable distribution box 10. If the user wants to pull the sliding tray 26, forward , the pin is removed from the holes 78 and 88, and the sliding tray 26, will be able to move forward. The tabs 90, in the intermediate clamp 82, prevent that clamp 82 from rotating. When the tray 26 is returned to the central position, the pin is repositioned in the holes 76 and 88. To move back the sliding tray 26 , the pin in the holes 86 and 84, is removed, then the sliding tray can move rearwardly of the enclosure 10. The tabs 90, make contact with the notch 74, and prevent it from rotating the intermediate clamp 82. FIGS. 11A-11B, are several views of an adapter plate 92, for use with the adapter plate bracket 28 shown in FIG. 8A. In the prior art a 6-port adapter plate is fixed to a clamp in the enclosure by two latching pin connectors. This requires that two holes be drilled in the 6-port adapter plate, with the proper diameter and placement to allow the plates to be retained by the installer in such a position that the pins are pre-assembled on the plates in the factory, aligned with holes formed in the clamp. Only then can the pins be pushed into place to retain the plates in the clamp. The disadvantage of the prior art is that the holes must be formed in the clamp and in separate pieces, that is, the snap pins are needed to mount the plate to the clamp. The adapter plate 92, shown in Figs. 11A-11E, avoid those disadvantages. The adapter plate 92, shown in Fig. HA, has a body portion 94, and pin portions 96. The portion 96, is a V-shaped member, having an end attached to the body portion 94. the second end is formed by a groove 98, adjacent to an edge 100, a release tab 102 is formed at the end of the V-member, which is not attached to the body portion. The adapter plate 92 is attached to the adapter plate bracket 28 when placing the slots 98 in two of the internal recesses 72. The adapter plate 92 fits into the internal recesses 72 in the bracket 28, by simply placing the plate 92, and the clamp 28, facing one another, and pushing the adapter plate forward until it snaps into place within the opening of the clamp 28, plate adapter. There is no need to align the lacy pins with partially hidden holes or activate multiple pins as described in the conventional sense. The width of the slot 98 is such that the adapter plate 92 fits within the recesses 72 in the clamp 28 of the adapter plate. The clamp 28, shown in Fig. 8A, stops at 12, the plates 92. To remove the plate 92, from the clamp 28, the user applies force to one or both of the tabs 102. With this the tongue 102 is released. , towards the center of the adapter plate 92, allowing it to tilt away and away from the bracket 28. It is also possible to overcome the two pin portions 96, by grasping the two tongues 102, between two fingers and causing their collapse one towards the other. other. Either, a single compression or double, this will be easier than pulling out the two snap pins. The adapter plate 92 is designed so that the vertical movement along the major axis of the plate 92 does not uncouple the plate 92 from the bracket 28 of the adapter plate. By serving adapters mounted on the adapter plate 92, this frequently moves up or down, as the service personnel drives an adapter mounted on the plate 92. An edge 104 is formed below each pin portion 96. When the plate 92 moves up or down in the clamp 28, the edge 104 contacts the pin portion in approximately the back of the slot 98. This prevents the adapter plate 92 from moving a sufficient distance in the vertical axis for inadvertently uncoupling the plate 92 from its bracket 28. The adapter plate 92 is also self-positioned in the horizontal direction within the bracket 28. The inner recesses 72 formed in the bracket 28 of the adapter plate receive the groove 98, formed in the portion 96, the vertical edges of the inner recess 72, prevent the plate 92 from slipping to the right or left and thus firmly locating the adapter plate in the horizontal direction . The adapter plate 92 has a mounting surface 106, with openings to receive adapters. The mounting surface 106 has an angle with respect to the groove 98. When the adapter plate 92 is mounted on the bracket 28, the groove 98 is parallel to the front face of the bracket 28. Thus, the mounting surface 106, is angled with respect to the face of the clamp 28, adapter plate, this angle offers several benefits, when one end of each of the fiber cables is connected to the adapters mounted on the adapter plate 92, which is mounted on the bracket 28, the cable is guided within wire handling retainers and out of the outlet openings 22, formed in the front of the cable distribution enclosure 10. It is desirable to limit the bending radius of the fiber cable to a minimum of 1.2"to maintain optimal transmission of signals through the core of the fiber. The outlet openings 22, in the front of the enclosure or box 10, are in a plane orthogonal to the clamp 28, of adapter plate. Thus, without a surface 106, mounted at an angle, the fibers should change direction by 90 degrees, which would cause abrupt bendings in the fiber, the mounting surface at an angle 106, reduce the angle between the fibers coming out of a mounted adapter. e the adapter plate 92, and the outlet openings 22, formed in the front of the cable distribution box 10. This reduces the folding of the fibers and prevents their damage.

A second benefit of the angled mounting surface 106 is eye satisfaction. When a laser light source is used for signal transmission through the fiber core, it can be a health hazard to look directly at the fiber. The angled mounting surface 106 directs the laser light away from the opening of the cable enclosure 10, and reduces the likelihood or ease of looking directly into the laser light that is being emitted by the fiber mounted on the laser. the adapter plate 92. The adapter plate 92 is also reversible in that it can be placed in the bracket 28, in any vertical orientation. This allows the plate 92 to be oriented left or right depending on the angular relationship between the mounting surface 106 and the clamp 28 of the adapter plate. If all the fibers should be directed towards the left front opening 22 of the distribution box 10, all the adapter plates 92 can be inserted with a left-facing orientation, of course any fraction of the plates 92 can be oriented towards the left. the right or left according to the route requieitoe. The adapter plate 92 includes a plurality of apertures 108 formed in the mounting surface 106. FIG. HA shows three openings 108 for receiving duplex adapters each carrying two fibers, of course the apertures 108 may have different shapes. and size according to the adaptation requirements to be assembled. On the rear side of the mounting surface are formed cylindrical poles 110, which provide many benefits when mounting the adapters on the adapter plate 92. In conventional systems, the method for fixing a fiber adapter, is using doe screws by holes in the adapter flanges and screw them into the hole made on the mounting surface. The cylindrical poles 110 eliminate the need for screws and holes co-drilled with cores. The post 110 has a size that fits through a hole formed in the flange of an adapter and the length of the pope is larger than the thickness of the flange. Once the adapter is installed against the mounting surface 106, with the poles 110, through the hole in the flange, the stopper of the posts 110 is mechanically engaged to effect the retention of the adapter to the surface of the wall. Assembly 106. The time to attach the adapter to the adapter plate 92 reduces the cost of removing the screws and drilling holes. Poles 110 can be used with a variety of adapters, and are particularly useful for adapters that do not include mounting fasteners. Certain adapters include a metal mounting pin that is designed to mount the adapter to a panel opening. However, these adaptations tend to rotate within the panel opening. The posts 110 serve to eliminate or greatly reduce the rotating action of the fasteners caused by the space between the fastener and the panel. The posts 110, once inside the holes of the flange of the adapter, limit the rotation of the adapter due to the restriction given by the preemption of the leg of the poem 110. It is understood that the posts 110, can have another form apart from the cylindrical, as long as the posts 110, fit through the holes in the flange on the adapter. The adapter plate 91 also includes recess bags 112, integral with the adapter plate 92, which accommodate removable trim tabs coded by color. These tabs are standardized, and are available in a wide variety of colors and include an icon on one or both sides (eg telephone, computer, etc.). Recess bags 112 allow full color coding or identification for each port of a 6-port adapter plate 92. Although Fig. HA, shows aperture 108, which accommodate 3-duplex adaptadoree or 6-fiber ports, in an alternative embodiment, the plate 92 retains adapters of 6 duplexes, for a total of 12 ports of fiber. The adapter plate clamp 28 can have 12 adapter plates 92, and thus the total density for the enclosure or cable distribution box 10 will be 144 fiber. The cable distribution box of the present invention provides a high deneity cable distribution box. the sliding tray allows access to the front or the back of an adapter plate clamp wherein a plurality of adapter plates are mounted. The adapter plates have a pin or lock mechanism on each end that allows easy installation or removal from the adapter plate clamp. An angled mounting surface on the adapter plate reduces the bending necessary to guide the fiber out of the cable die box. Although preferred embodiments have been shown and described, it is evident that many changes and modifications are possible without departing from the scope of the present invention.

Claims

1. An adapter plate for stopping cable adapters, adapter plate that is mountable on an adapter plate clamp, and comprises: a body portion for receiving the cable adapters, and when a portion of the paddle is attached to join the plate Adapter to the clamp of the adapter plate.

2. Adapter plate according to claim 1 wherein the pacer portion comprises a slot for coupling an edge of the adapter plate clamp.

3. Adapter plate according to claim 2, wherein the pacer portion comprises an edge formed adjacent to the slot.

4.- Adapter plate according to the claim 1, wherein the pacer or fixator portion comprises a first end coupled to the body portion and an end second, which comprises a release tab.

5. Adapter plate according to claim 1, wherein the pacer portion has a V-shape.

6. Adapter plate according to the claim 1, wherein, the body portion comprises a mounting surface that has at least one opening for receiving the cable adapter.

7. Adapter plate according to claim 6, wherein the adapter plate is mounted on the clamp of the adapter plate, and the mounting surface is at an oblique angle with respect to the adapter plate clamp.

8.- Adapter plate according to the claim 6, wherein the cable adapters mounted on the adapter plate include holes and the mounting surface further comprises a plurality of posts for coupling into the holes.

9. The adapter plate according to claim 8, wherein the posts are positioned on opposite sides of the opening.

10. Adapter plate according to claim 6 wherein the mounting surface also comprises at least one recess bag for receiving identification tabs.

11. Adapter plate according to claim 1, wherein the adapter plate can be placed in the clamp for the adapter plate with multiple orientations.

12. The adapter plate according to claim 1 wherein the number of pin pin ee of doe.

13. A closure or cable distribution box having a front opening and a rear opening, comprising: a sliding tray, which is in a forward direction away from the front opening and in a backward direction away from the front opening. the back opening; and an adapter plate clamp mounted on the sliding tray to receive at least one adapter plate.

14. The cable distribution box according to claim 13, comprising a front snap near the front opening and a rear snap near the rear opening.

15. The cable distribution box according to claim 14 comprising a front and a rear door for covering the front and rear openings, respectively, the front door includes a recess for receiving the front clasp and the rear door comprises a Notch to receive the brooch.

16. The cable distribution box according to claim 15, further comprising a releasable front hinge for attaching the front door to the cable distribution box and a rear releasable hinge for fixing the rear door to the die distribution box. of cable.

17. The cable distribution box according to claim 13, wherein the sliding tray further comprises a portion raised in the rear part of the tray deelizante, raised part comprising a cable tie.

18. - the cable distribution box according to claim 17, wherein the cable tie is formed in the center of the raised portion.

19. The cable distribution box according to claim 17, wherein it comprises at least one tongue extending away from the raised portion.

20. The cable distribution box according to claim 13, wherein the sliding tray comprises in addition a label retaining panel placed on the front of the tray deelizante.

21. The cable distribution box according to claim 20, wherein the label retaining panel comprises an upper lip, a front or face and a lower lip.

22. The cable distribution box according to claim 13, further comprising a pin or lock mechanism for coupling the adapter plate clamp and fixing the sliding tray.

23. The cable distribution box according to claim 22, wherein the adapter plate clamp includes an adapter plate clamp hole and the pin or clamp mechanism comprises: a first clamp mounted to the die distribution box. cable, first clamp that has a first clamp hole; and a second clamp for coupling the clamp of - adapter plate to the first clamp, the second clamp has an upper hole and a lower hole, the upper hole is aligned with the hole of the first clamp and the lower hole is aligned with the hole of the clamp of the adapter plate.

24. The cable distribution box according to claim 23, wherein the second clamp comprises at least one tab to prevent the second clamp from rotating.

25. The cable distribution box according to claim 23, wherein, a first connector is placed through the hole of the first clamp and the upper hole to connect the first clamp to the second clamp; and a second connector is placed through the bottom hole and the hole in the clamp of the adapter plate to connect the second clamp to the clamp of the adapter plate.

26. The cable distribution box according to claim 24, wherein the first connector and the second connector eon conectoree of encapette peetillo.

27. The cable distribution box according to claim 13, wherein the sliding tray comprises means for mounting a splice tray to the deelising tray.

28. The cable distribution box according to claim 13, further comprising: a plurality of aperture to allow the cable to enter and exit the cable distribution box; and a cable grommet mounted on each of these openings.

29. The cable distribution box according to claim 29, wherein the cable grommet comprises a circular region and a straight region.

30. The cable distribution box according to claim 29, wherein the cable grommet comprises a circular wall for coupling the circular region and a cable grommet opening to align with the straight region. 31.- The cable distribution box according to claim 29 wherein the circular region further comprises a notch or notch and the cable grommet further comprises a protrusion to engage the notch.