GB2574320A - Fiber optic adapter with removable insert for polarity change and removal tool for the same - Google Patents

Abstract

An adapter assembly 120, including a housing, is claimed including a hook insert 110 to change the adapter polarity. The hook insert is removably placed into an adapter receptacle at a first or second end. One or more latches on the side of the housing engage with one or more protrusions on the insert. The insert further has a mating structure 112 suitable for connecting to a fibre optic connector. The insert may be placed in first and second positions, configuring the adapter to connectors in first and second polarities, respectively. In another aspect, a hook insert is claimed, the insert having first and second opening, the first additionally comprising a mating structure, and the insert also being configured to accept a latch or hook such that it may be secured within a corresponding housing. In a further aspect, a removal tool is claimed comprising a body with arms of a radius suitable for engaging a corresponding adapter with latched hook insert, so that a pin may be released. In a final aspect, a removal tool is claimed having a body with opposing pins on either side and a latch perpendicular to said pins such that larches may release a hook insert in a corresponding adapter

Description

FIBER OPTIC ADAPTER WITH REMOVABLE INSERT FOR POLARITY CHANGE

AND REMOVAL TOOL FOR THE SAME

RELATED APPLICATIONS [0001] This application claims priority to U.S. Patent Application 62/659,933 filed 04/19/2018 entitled Fiber Optic Adapter With Removable Insert for Polarity Change and Removal Too for the Same, which is fully incorporated herein by reference .

FIELD OF THE INVENTION [0002] The described technology generally relates to components for connecting data transmission elements and, more specifically, to connectors, adapters, and connection assemblies formed therefrom that are configured to have a reduced profile and/or a reduced quantity of parts in comparison to conventional connection components while providing a secure connection between data transmission elements, such as cable segments, equipment, and/or devices.

BACKGROUND [0003] Demand for bandwidth by enterprises and individual consumers continue to experience exponential growth. To meet this demand efficiently and economically, data centers have to achieve ultra-high density cabling with low loss budgets. Fiber optics have become the standard cabling medium used by data centers to meet the growing needs for data volume and transmission speeds.

[0004] Individual optical fibers are extremely small.

For example, even with protective coatings, optical fibers may be only about 250 microns in diameter (only about 4 times the diameter of a human hair). As such, hundreds of fibers can be installed in cables that will take up relatively little space. However, terminating these fibers with connectors greatly increases the space required to connect cable segments and communication devices. Although multiple fibers may be arranged within a single connector, the resulting connection component may still increase the space used by the optical fibers by 20 to 50 fold. For example, multi-fiber connectors such as those using multi-fiber push-on/pul1-off (MPO) technology may connect 12 or 24 fibers. However, a typical MPO connector may have a length of about 30 millimeters to 50 millimeters and a width of about 10 millimeters to 15 millimeters. Multiplying these dimensions by the hundreds of connections in a typical data center results in a significant amount of space devoted to these cable connections. In order to cost-effectively increase data transmission capacity and speed, data centers must increase the

-2number of fiber optic cables and, therefore, cable connections within existing space. Accordingly, data centers and other communication service providers would benefit from a multi-fibe connector having a reduced profile capable of securely connecting multiple fibers while requiring less space than conventional multi-fiber connectors.

SUMMARY [0005] This disclosure is not limited to the particular systems, devices and methods described, as these may vary. The terminology used in the description is for the purpose of describing the particular versions or embodiments only, and is not intended to limit the scope.

[0006] As used in this document, the singular forms a, an, and the include plural references unless the context clearly dictates otherwise. Unless defined otherwise, all technical and scientific terms used herein have the same meanings as commonly understood by one of ordinary skill in the art. Nothing in this disclosure is to be construed as an admission that the embodiments described in this disclosure are not entitled to antedate such disclosure by virtue of prior invention. As used in this document, the term comprising means including, but not limited to.

-3[0007] In one aspect, an adapter assembly may include an adapter housing and removable hook insert, the adapter has a first end and a second end for accepting a removable hook insert. The removable hook insert latches a connector inserted therein. The removable hook insert further includes a first mating structure. The first mating structure corresponds with a second mating structure at a proximal end of a connector. The mating of the first and second mating structures results in a first polarity. Removing the hook insert, rotating it 180 degrees, and inserting hook inert into the adapter receptacle changes the polarity of the connector inserted therein without disassembling the connector.

[0008] In another aspect, to remove the hook insert a removal tool engages a set of opposing latches located on either side of adapter housing. In one aspect, the tool can be used horizontally across adapter body, or a second tool can be inserted into a receptacle of the adapter to remove the hook insert. In another aspect, a first end of the adapter may have a removable hook insert and a second end may have a fixed hook insert or similar structure to accept and secure a connector therein. The first end may have a removable hook insert and the second end may have a removable hook insert. The second end may

-4have a removable hook insert, and the first end a fixed hook insert or similar structure to secure a connector therein .

-5BRIEF DESCRIPTION OF THE DRAWINGS [0009] The above and other objects of the present invention will become more readily apparent from the following detailed description taken in connection with the accompanying drawings .

[0010] FIG. 1 is an exploded view of a hook insert and an adapter configured to receive the hook insert with a removable tool inserted horizontally across the adapter;

[0011] FIG. 2 is an exploded view of a hook insert at a first end and hook insert at a second end of an adapter;

[0012] FIG. 3A is a perspective view of the adapter assembly with hook insert and a first connector inserted therein;

[0013] FIG. 3A.1 is a perspective view of a prior art or conventional latch MPO connector without a polarity change feature prior to insertion into an adapter receptacle;

[0014] FIG. 3A.2 is a perspective view of the adapter assembly with a hook insert therein determining a first polarity;

[0015] FIG. 3B is a perspective view of the adapter assembly with insert hook and a second prior art connector inserted therein;

-6[0016] FIG. 3B.1 is a perspective view of a conventional

MPO connector with a polarity change feature, as part of the connector, prior to insertion into an adapter receptacle;

[0017] FIG. 3B.2 is a perspective view of the adapter assembly with a hook insert therein determining a first polarity;

[0018] FIG. 4A is a perspective view of a hook insert in a first polarity position;

[0019]	FIG.	4B	is	a	cross-section	view	of	adapter	prior
to hook insertion at	a	first	end and a fixed hook	at a second
end;
[0020]	FIG.	5A	is	a	cross-section	view	of	adapter	with

hook partially inserted therein at a first end and a fixed hook at a second end;

[0021]	FIG.	5B	is a	cross-section 1	view	of	adapter	with
hook fully	inserted	therein	at a first end	and	a	fixed hook at a
second end;
[0022]	FIG.	6 A	is an	exploded view	of	the	adapter	and

hook insert assembly showing the direction of hook insert rotation to change from a first polarity to a second polarity;

[0023] FIG. 6B is an exploded view of hook insert rotated to a second polarity and just prior to insertion into adapter;

-7[0024] FIG. 7 is a front angled perspective view of adapter with hook insert therein illustrating cut-out for perpendicular removal tool of FIG. 9;

[0025] FIG. 8 is a front perspective view of adapter with hook insert therein;

[0026]	FIG.	9	is a perspective view of presser	or
perpendicular	removal	tool;
[0027]	FIG.	10	is a cross-section view of FIG.	7;
[0028]	FIG.	11	is a partial cross-section view	of FIG. 7

with perpendicular removal tool engaged allowing removal of hook insert;

[0029] FIG. 12 is an exploded view after hook insert is removed from adapter and perpendicular removal tool fully engaged within adapter;

[0030] FIG. 13 is a perspective view of a horizontal removal tool;

[0031] FIG. 14 is a front perspective view of adapter receptacle prior to insertion of horizontal removal tool;

[0032] FIG. 15 is a side perspective view of adapter with hook insert therein;

[0033] FIG. 16 is an exploded view of insertion tool of FIG. 13 prior to insertion into an adapter;

-8[0034]

FIG. 17 is a top, perspective view of removal tool of FIG. 13.

[0035] FIG. 18 is an exploded view of hook inserts according to FIG. 1 integrated together to form a dual or twosided hook insert.

-9DETAILED DESCRIPTION [0036] The described technology generally relates to components configured to connect data transmission elements, such as cable segments, communication equipment, networking devices, and computing devices. In some embodiments, the data transmission elements may be connected using reduced-profile connection components, including, without limitation, connectors, ferrules, adapters, and connection assemblies formed therefrom. The connectors transmit data as light to and from another connector or to an electronic interface, such as a transceiver. The Tx or transmit or Rx receive must align with the opposing connector or transceiver electronics. In some situations, a first connector is in a first polarity Tx/Rx while a second connector is in a second polarity Rx/Tx. Due to limited space in a data center, the second connector may not be accessible or in the case of a transceiver, the user cannot change the polarity of the electronics, so there is a necessity to change the polarity of the first connector.

[0037] The hook insert and adapter housing places the polarity change at the adapter rather than at the connector, as found in prior art devices such as U.S. Pat. No. 9,658,509 Gniadek currently owned by the assignee of this disclosure.

-10[0038] In some embodiments, the data transmission elements may include fiber optic data transmission elements. In some embodiments, the reduced-profile connection components may include components configured to provide a secure connection for fiber optic data transmission elements. In some embodiments, the reduced-profile connection components may be configured to implement various types of fiber optic connection components, including multiple-fiber (or multi-fiber) connection components. Non-limiting examples of multi-fiber connection components include mechanical transfer (MT), multiple-fiber push-on/pulloff (MPO), and multi-fiber MTP® connectors (MTP). Although fiber optic connection components, and MPO-compatible components in particular, are used as examples herein, embodiments are not so limited as any type of data transmission medium and associated components capable of operating according to some embodiments are contemplated herein.

[0039] FIG. 1 depicts adapter 120 with first end 124a and second end 124b. Designation a, b, c and so on refer to the same element that is repeated in a figure or across figures. In the figures, I arrow means insert in direction of arrow. In the figures, A means in direction of arrow. The adapter receptacle or opening at the first end is configured to accept insert 110 or hook insert 110. The hook insert has

-11corresponding structure on its outer surface, such as one or more protrusions Illa, FIG. 4A, for securing insert 110 inside the adapter receptacle first end 124a or second end 124b, as shown in FIG. 2. And first mating structure 112 accepts second mating structure 334 located on the fiber optic connector. Referring to FIG. 5A, the insert 110 protrusion 111b engages latch 122b as the insert is pushed into the receptacle. Protrusion 111b moves latch 122b outward through an opening in adapter housing, and when the insert is fully inserted into the receptacle. In FIG. 5B, latch 122b blocks protrusion 111b, which prevents hook insert from being removed from the receptacle. The hook insert is shown removed from the adapter in FIG.l.

FIG. 5B shows protrusion 11b locked in behind latch 122a.

[0040] FIG. 2 depicts an exploded view of the adapter assembly with adapter 120, hook insert 110a prior to insertion first end 124a, and second hook insert 110b prior to insertion second end 124b of the adapter. The hook insert is inserted into an adapter receptacle or opening in the direction of arrow A. FIGS. 10 and 13 depict removal tools that remove the replaceable hook insert 110a, 110b to change connector polarity as described herein. Referring to FIG. 2, hook insert 110a has first mating structure 112 that is configured to engage corresponding connector second mating structure 334, FIGS. 3A

-12and 3B, located at a proximal end of a connector. Second mating structure 334 is found on conventional or prior art MPO connectors, as shown in FIG. 3A.1 and FIG. 3B.1.

[0041] FIGS. 3A and 3B depict two prior art MPO fiber optic connectors inserted into adapter assembly 200 at first end 124a. An adapter assembly is formed from an adapter 120, at FIG. 1, with a hook insert (110a, 110b) removably inserted at a first end 124a or a second end 124b or both ends. FIG. 3A is conventional latch MPO connector 330 with connector second mating structure 334 or raised surface 334 accepted by adapter 120 at one end. FIG. 3B is a conventional MPO connector 332 with connector second mating structure 334 accepted by adapter 120. Other connectors such as MT ferrule connectors, similar to the connectors disclosed in Applicants' co-pending application serial number 15/881,309 entitled Modular Connector and Adapter Devices can be used with the present disclosure without departing from the scope of this invention.

[0042] FIGS. 3A.1 and 3A.2 depict insertion of conventional latch MPO connector 330, FIG. 3A.1, prior to insertion into adapter assembly 200, FIG. 3A.2, of the present invention. Connector second mating structure or second mating structure 334 on connector 330 is accepted at first mating structure 112 on first hook insert 110a with adapter 120

-13receptacle at first end 124a or a second end 124b with hook insert 110a. Prior to insertion as shown by the dotted line, connector 330 is oriented to allow second mating structure 334 to interconnect with first mating structure 112, which sets a first polarity of the connector at the first end of adapter. Connector 330 when assembled has a fixed polarity, for example ferrule 109a is Tx or transmit while ferrule 109b is Rx or receive. This would need to align with a second connector installed at a second end of adapter, that is, Tx of connector A with Tx of connector B, installed at a first end of adapter, to establish a communication path. If the connector installed in the second end was not accessible, and its Tx was aligned with Rx 109b, removing hook insert 110a, rotating 180 degrees and inserting into the first end would orient connector A Tx with fixed connector B Tx, thereby, allowing the user to proceed using the conventional connector not having polarity change feature. Rotating hook insert 110 to change adapter polarity configuration, placing the first connector into correct polarity to communicate with the second opposing connector is shown at FIGs. 6A and 6B.

[0043] FIGS. 3B.1 and 3B.2 depict conventional MPO 332, FIG. 3B.1, prior to insertion into adapter assembly 120, FIG. 3B.2, of the present invention with hook insert 110a. Connector

-14second mating structure 334 or raised surface 334 mates with first mating structure 112 on hook insert 110, and this predetermines a polarity of connector 332 within a first end of adapter assembly to communicate with a corresponding connector at a second end. Further in this embodiment, the prior art connector has polarity change feature that can be used with adapter assembly 200 invention to change polarity at the adapter .

[0044] FIG. 4A depicts adapter assembly 100 with a cross-section view of adapter 120. Latches (122a, 122b) are moved outwards from adapter housing upon insertion of hook insert 110a. Protrusions Illa (111b not shown) moves latch 122a outward as hook insert 110a is inserted into adapter receptacle in the direction of the arrow. Protrusion 111b (refer to FIG. 5A) engages chamfer 123b to ensure the latch and protrusion do not become misaligned and jam hook insert within receptacle disabling the adapter assembly. By contrast, second end 124b contains fixed hook insert 110c with latch 112c, thus second end is not configured for polarity change using removable hook inert 110a. A first polarity positon for the adapter assembly 200 is defined by first mating structure 112 as shown in a first position, refer to FIG. 4A. Once hook inserted is secured

-15within an adapter receptacle at first end 124a, this sets the adapter to a first polarity position.

[0045] FIG. 4B depicts adapter 120 prior to accepting hook insert 110a (refer to FIG. 4A) , at first end 124a or second end 124b. In FIG. 4B, second end 124b is configured with fixed latches 110c to accept and secure a prior art fiber optic connector therein.

[0046] FIG. 5A depicts partially inserting hook insert 110a into the adapter receptacle. Protrusion Illa move latch 122a outward, and likewise protrusion 111b moves latch 122b outward. FIG. 5B depicts latches (122a, 122b) positioned to block its corresponding protrusion (Illa, 111b) after hook insert 110a is fully inserted into adapter 120. The adapter is configured in a first polarity position, at the first end. This corresponds with the second end polarity position, which is predetermined by the fixed hook insert 110c. When hook insert 110 is fully inserted or secured with an adapter receptacle, an adapter assembly 200 is formed according to the present invention .

[0047] FIGS. 6A and 6B depict polarity change using the adapter assembly. Prior art devices such as U.S. Pat. No. 9,658,509 Gniadek disclose polarity change as part of a connector, not the adapter. The present disclosure teaches

-16polarity change at the adapter. Once a connector is assembled, due to size and number of internal parts it is not possible to reconfigure to a different polarity. The connector will be thrown away. Also, if the installer has connectors of a first polarity, switching the orientation of hook insert 110 allows for a polarity change without attempting to take apart the connector. Also, conventional connectors without a polarity change feature can be used. The latter connectors cost much less .

[0048] FIG. 6A depicts hook insert 110 removed from adapter 120, and rotated 180 degrees in arrow direction P. Hook insert 110 may be rotated in the opposite or counter clockwise direction. FIG. 6B depicts inserting rotated hook insert 110 into adapter 120 in direction of arrow, to change adapter from first polarity 600a to second polarity 600b.

[0049] FIG. 7 depicts adapter assembly 700. To remove a hook insert 110, removal tool 190 (FIG. 9) is inserted into slots (123a, 123b) to move latches (122a, 122b) outward so protrusions (Illa, 111b) no longer secured by latches (122a, 122b) that prevents removal of hook insert. Once hook insert is removed, adapter polarity is changed as depicted in FIGS. 6A and 6B .

-17[0050] FIG. 8 depicts adapter assembly 800 with hook insert 110 installed at first end 124a. Chamfer 127a engages corresponding protrusion Illa and moves latch 122a in the direction of arrows A as shown respectively for each latch.

[0051] FIG. 9 depicts horizontal removal tool 190 with a pair of legs (191a, 191b), and at one end of a leg is chamfer 192a. Refer to FIG. 10, chamfer 192a engages latch chamfer 123a and moves latch outward to release hook insert 110 from latch 122a. FIG. 11 depicts chamfer 192a moving corresponding latch 122a as shown in call out 440. Removal tool 190 is partially inserted in slots (123a, 123b). FIG. 12 depicts removal of hook insert 110, in direction of arrow A. The hook insert is in first mating position 112 for a first adapter polarity.

[0052] FIGS. 13-17 depict second removal tool 500 operation. Removal tool 500 releases and removes hook insert 110 from the front or an open side of a receptacle. Using removal tool 190, the user must grasp hook insert 110 to remove the hook insert from the receptacle. This may not be possible due to the micro size of adapters, or the condensed layout of multiple adapters in a rack. FIG. 13 depicts removal tool 500 to help overcome the smaller sized adapter, tool 500 has latch 560 and press pin pair set (562a, 562b) perpendicular to latch 562. FIG 14 depicts a front view of adapter assembly 200. Slots (126a,

-18126b) corresponds to pair of press pins (562a, 562b). In operation tool 500 is inserted into first end 124a of receptacle and press pin set (562a, 562b) enters corresponding slots (126a, 126b) disclosed at FIG. 14. As tool 500 is inserted the press pins push out corresponding latches (122a, 122b) as shown in FIG. 15, respectively releasing hook insert 110 from within receptacle. Upon full insertion, latch 560 secures into hook insert opening 114 (FIG. 12), and then when the user withdraws tool 500, hook insert 110 is attached to one end of the removal tool 500, as shown in FIG. 16.

[0053] FIG. 16 depicts installing insert hook 110 into a first end of adapter 120. Insert hook 110 is secured by latch 562 onto tool 500. User installs hook insert 110 in direction of arrow, and once fully installed user pulls back on release tab 564 which removes latch 562 from opening, and tool 500 can be removed without withdrawing hook insert 110 out of adapter 120. FIG. 17 depicts installed hook insert 110 secured on tool 500 by lath 562. Press pins (562a, 562b) moved outward latches (122a, 122b) respectively. The pins withdraw with tool 500, and latch 122a is secured in front of protrusion Illa. The opposite side works the same. FIG. 18 depicts two FIG. 1 hooks inserts in opposite polarity positions integrated together along arrows A called a dual hook insert.

Claims (19)

What Is Claimed Is:

1. An adapter assembly comprising:

an adapter housing;

a hook insert removable within a first end or a second end of the adapter housing; and one or more latches on a side of the adapter housing and one or more protrusions on an outer surface of the hook insert, the latch is configured to engage the protrusion to prevent movement of the hook insert within the adapter, and the hook insert has a first mating structure, the first mating structure accepts a second mating structure on a surface of a fiber optic connector, the interconnection of the first and the second mating structure accepts the fiber connector within the adapter housing; and wherein the hook insert in a first position within adapter housing configures the connector in a first polarity or the hook insert in a second position within the housing configures the connector in a second polarity.

2. The adapter assembly of claim 1, wherein the protrusion is at a surface of the hook insert, the protrusion is the first mating structure.

3. The adapter assembly of claim 1, wherein the fiber optic connector is a multi-fiber push-on/push-off or a mechanical transfer .

4. The adapter assembly of claim 1, wherein at least a portion of the hook insert is configured as a multi-fiber push-on/pulloff or a mechanical transfer hook insert capable of receiving the corresponding fiber optic connector.

5. The adapter assembly of claim 1, wherein the latch can engage an opening on a side of the hook insert.

6. The adapter assembly of claim 1, wherein the first mating structure is an opening formed as part of the hook insert.

7. The adapter assembly of claim 6, wherein the first mating structure is channel, raised surface, or channel as part of the the hook insert.

8. The adapter assembly of claim 1, wherein a pair of latches are permanently secured within the second end of the adapter receptacle to form a fixed hook insert.

9. A hook insert assembly, comprising:

a hook insert housing having a first end opening and a second end opening, the hook insert housing is configured to accept a latch or a hook within an adapter receptacle for securing the hook insert therein;

the first end opening further comprises a first mating structure .

10. The hook insert assembly according to claim 9, further comprising a fiber optic connector, the connector including a second mating structure,

-21the second mating structure interconnects with the first mating structure on the hook insert to secure the fiber optic connector within the hook insert housing; and the hook insert in a first position within the adapter configures the fiber optic connector in a first polarity, and the hook insert in a second position within the adapter, opposite the first position, the second position configures the fiber optic connector in a second polarity.

11. The hook insert assembly of claim 10, wherein the fiber optic connector is a multi-purpose push/push off or mechanical transfer ferrule fiber optic connector.

12. The hook insert assembly of claim 10, wherein the adapter receptacle is configured to accept a dual hook insert.

13. The hook insert assembly of claim 10, wherein the adapter further comprises a second end, the second end is configured to accept a second hook insert.

14. The hook insert assembly of claim 13, wherein the hook insert is removable from the second end of the adapter.

15. The hook insert of claim 10, wherein the hook insert is removable from the first end of the adapter.

16. The hook insert of claim 10, wherein a pair of latches are permanently secured within the adapter receptacle instead of the second hook insert.

17. A removal tool comprising:

a body with arms configured to be accepted into one or more slots of an adapter;

a proximal end of the arms has a radius configured to engage a corresponding adapter latch securing a hook insert within a receptacle of the adapter or an opening in the hook insert body to release a pin within the opening, the pin is integrated to the adapter to secure said insert hook within the adapter receptacle.

18. A removal tool comprising:

a body with opposing pins on either side;

a latch on one side of body perpendicular to said pins; and wherein said pins separate opposing adapter latches to release a hook insert within said adapter, and latch attaches removal tool to hook insert when removal tool is insert into hook insert first opening.

19. A removal tool of claim 18, wherein removing removal tool from adapter receptacle said hook insert is removed.