Multi-Port Uniboot Connector for Multi-Fiber Plug Housings

Abstract

A cover for a fiber optic ferrule and ferrule push includes a sleeve extending lengthwise between opposed front and rear ends and defines a lengthwise-extending opening that opens through the rear end for receiving at least a portion of the fiber optic fiber optic ferrule and the ferrule push. The sleeve also includes a top side and an opposing bottom side, and two side walls extending between the top side and the bottom side and along at least a portion of the sleeve. A receiver is disposed in the top side to receive a projection associated with the ferrule push.

Claims

1. A multi-port uniboot connector for multi-fiber plug housings, comprising: a plurality of plug housings separated at a pitch, each plug housing accommodating at least two fibers; a common uniboot housing attached to a rear part of the plurality of plug housings, the common uniboot housing having a plurality of spring pushes integrally formed with the common uniboot housing for each of the respective plurality of plug housings; and a push-pull boot attached to a rear part of the common uniboot housing, the push-pull boot having a central opening for aggregating the at least two fibers.

2. The multi-port uniboot connector according to claim 1, further comprising a slidable latch simultaneously coupled to one or more of the plurality of plug housings, to the common uniboot housing, and to the push-pull boot.

3. The multi-port uniboot connector according to claim 1, wherein each of the plurality of plug housings further accommodates at least one fiber optic ferrule.

4. The multi-port uniboot connector according to claim 1, wherein each of the plurality of spring pushes include projections on a side surface to respectively engage the plurality of plug housings.

5. The multi-port uniboot connector according to claim 1, wherein the common uniboot housing has a rear stop surface for the plurality of plug housings.

6. The multi-port uniboot connector according to claim 1, wherein the plurality of plug housings and the plurality of spring pushes comprises four plug housings and four spring pushes.

7. The multi-port uniboot connector according to claim 1, wherein the plurality of plug housings and the plurality of spring pushes comprises two plug housings and two spring pushes.

8. A system for connecting a plurality of fiber optic connectors comprising: an adapter having an opening on opposing sides to receive fiber optic connectors therein; a plurality of fiber optic connectors insertable into one of the opposing sides of the adapter, each of the plurality of fiber optic connectors having an outer housing and at least two fiber optic ferrules disposed within the outer housing, a portion of the outer housing making contact with the adapter; and a first multi-port uniboot connector having a plurality of plug housings separated at a pitch insertable into one of the opposing sides, each plug housing accommodating at least two fibers, a uniboot housing commonly attached to the plurality of plug housings at a rear part of the plurality of plug housings via respective spring pushes integrally formed with the uniboot housing, and a push-pull boot attached to a rear part of the uniboot housing, the push-pull boot having a central opening for aggregating the at least two fibers.

9. The system for connecting a plurality of fiber optic connectors according to claim 8, wherein the plurality of fiber optic connectors and the first multi-port uniboot connector are inserted into different sides of the adapter.

10. The system for connecting a plurality of fiber optic connectors according to claim 8, wherein the plurality of fiber optic connectors and the first multi-port uniboot connector are inserted into the same side of the adapter.

11. The system for connecting a plurality of fiber optic connectors according to claim 8, further comprising a second multi-port uniboot connector having a plurality of plug housings separated at a pitch insertable into one of the opposing sides, each plug housing accommodating at least two fibers, a uniboot housing commonly attached to the plurality of plug housings at a rear part of the plurality of plug housings via respective spring pushes integrally formed with the uniboot housing, and a push-pull boot attached to a rear part of the uniboot housing, the push-pull boot having a central opening for aggregating the at least two fibers.

12. The system for connecting a plurality of fiber optic connectors according to claim 11, wherein the first multi-port uniboot connector and the second multi-port uniboot connector are inserted into opposing sides of the adapter.

13. The system for connecting a plurality of fiber optic connectors according to claim 11, wherein the first multi-port uniboot connector and the second multi-port uniboot connector are inserted into the same side of the adapter.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] FIG. 1 is a perspective view of one embodiment of a multi-port uniboot connector according to the present invention;

[0019] FIG. 2 is a bottom perspective view of the multi-port uniboot connector in FIG. 1;

[0020] FIG. 3 is an exploded, perspective view of the multi-port uniboot connector in FIG. 1;

[0021] FIG. 4 is a top perspective view of the multi-port uniboot connector in FIG. 1 inserted into an adapter;

[0022] FIG. 5 is a top perspective view of the multi-port uniboot connector and a cross-section of the adapter in FIG. 4;

[0023] FIG. 6 is a front perspective view of the bottom of the multi-port uniboot connector in FIG. 1;

[0024] FIG. 7 is a perspective view of the uniboot housing with one plug housing;

[0025] FIG. 8 is an elevational view of the uniboot housing in FIG. 7;

[0026] FIG. 9 is a front elevational view of the uniboot housing in FIG. 7;

[0027] FIG. 10 is a top view of the uniboot housing in FIG. 7;

[0028] FIG. 11 is a cross section view of the uniboot connector in FIG. 6;

[0029] FIG. 12 is a top view of the push-pull boot and a latch for the multi-port uniboot connector in FIG. 1;

[0030] FIG. 13 is a perspective view of the push-pull boot in FIG. 12;

[0031] FIG. 14 is a cross section view of the push-pull boot and a latch for the multi-port uniboot connector in FIG. 12;

[0032] FIG. 15 is a perspective view of a two port version of a uniboot connector with two plug housings according to the present invention; and

[0033] FIG. 16 is a bottom view of the two port version of a uniboot connector in FIG. 15;

[0034] FIG. 17 is a perspective view of NEED TO HAVE TWO BUNDLES ON EACH SIDE.

DETAILED DESCRIPTION OF THE INVENTION

[0035] Reference will now be made in detail to the present preferred embodiment(s) of the invention, examples of which are illustrated in the accompanying drawings. Whenever possible, the same reference numerals will be used throughout the drawings to refer to the same or like parts.

[0036] Applicant notes that the term “front” or “forward” means that direction where the fiber optic connector and/or the ferrule would meet with another fiber optic connector or device, while the term “rear” or “rearward” is used to mean the direction from which the optical fibers enter into the fiber-optic ferrule, the fiber optic connector, or the ferrule push. Each of the components will therefore have a front and rear, and the two fronts or forward portions of the fiber optic ferrules would engage one another. Thus, in FIG. 1, the “front” of the fiber optic assembly is on the left side of FIG. 1 and “forward” is to the left and into the page. “Rearward” or “rear” is that part of the fiber optic connector or cover that is on the right side of the page and “rearward” and “backward” is toward the right and out of the page.

[0037] One embodiment of a multi-port uniboot connector for multi-fiber plug housings 100 is illustrated in FIGS. 1-6 (“the uniboot connector”). The uniboot connector 100 has, moving from left to right in FIG. 1, a plurality of plug housings 102, a common uniboot housing 104, a slidable latch 106 that may be used to secure the uniboot connector 100 in an adapter 300 (see, e.g., FIG. 4), and a push-pull boot 108 that is attached to the common uniboot housing 104 and the slideable latch 106 and allows the user to insert and remove the uniboot connector 100 from the adapter 300. As will be recognized, there are multiple sets or ports of optical fibers but there is a single boot for all of the sets or ports—thus, the multi-port and uniboot descriptors for the innovative connector.

[0038] Similarly, the plurality of plug housings 102 are preferably multi-fiber in that they each contain at least two optical fibers. The optical fibers may be in two different fiber optic ferrules or there may be multiple optical fibers in a single fiber optic ferrule. The only requirement is that the form factor used for the ports or the fiber optic ferrules needs to be able to mate with other connectors in the adapter 300 in FIG. 4. The adapter is a standard adapter (standard SFP/QSFP footprint) and accepts the plurality of plug housings 102 as if they were separate entities. Therefore, and as illustrated below, there can be a uniboot connector 100 on one side of the adapter and multiple single connectors on the other side. See, e.g. WIPO Pub. No. WO 2019/126333 assigned to the same applicant.

[0039] Referring back to FIGS. 1-6, the uniboot connector 100 has four plug housings 102, although there could be more (8+) or fewer (2). The plurality of plug housings 102 have the same configuration and dimensions as a conventional MDC-type connector housing as noted above. Thus, the plurality of plug housings 102 are separated at a pitch for the standard adapter. See FIG. 6. Each of the plurality of plug housings 102 has two optical fibers secured therein, preferably in a fiber optic ferrule 110. See FIG. 6. Each of the plurality of plug housings 102 are then attached at a back end 112 to the common uniboot housing 104. The plurality of plug housings 102 have at least one detent window 114 on each side to receive detents on spring pushes in the common uniboot housing 104. As can be seen in FIGS. 1 and 2, there are two such detent windows 114 on each side, as discussed in detail below. Each of the plurality of plug housings 102 has a rear surface 116 at the back end 112 that engages the common uniboot housing 104 and therefore limits the how far back the plurality of plug housings 102 can be installed on the common uniboot housing 104.

[0040] Turning now to the common uniboot housing 104, it is best illustrated in FIGS. 7-11. It is preferably a two piece item, with a top portion 104a and a bottom portion 104b. The two pieces 104a and 104b are connected to one another by a friction fit and are further held together by the push-pull boot 108 and the plurality of plug housings 102 when they are connected, as explained in more detail below. Alternatively, the top portion 104a and a bottom portion 104b could be connected in other ways as well. For example, they could attached with an adhesive, ultrasonically welded, etc. The separate pieces of the common uniboot housing 104 allows for the arrangement of the plurality of plug housings 102 and their optical fibers within the bottom portion 104b.

[0041] The common uniboot housing 104 has a front end 120, a back end 122 and a transition area 124. At the front end 120 are integral spring pushes 126. The integral spring pushes 126 are preferably formed at the same time as the common uniboot housing 104. In reality, since there are two pieces that make up the common uniboot housing 104, only half of the integral spring pushes 126 are present on each portion 104a and 104b of the common uniboot housing 104. Each of the integral spring pushes 126 also have detents 128 on the sides thereof to engage the detent windows 114 on the plurality of plug housings 102 as noted above. There is some play allowed between the detent windows 114 and the detents 128 so that the structures inside the adapter 300 control the location of the plurality of plug housings 102 and the fiber optic ferrules 110 relative thereto. However, at least one of the detents 128 has a rearward facing surface that is disposed within and designed to engage the detent windows 114 to prevent the plurality of plug housings 102 from coming loose when the uniboot connector 100 is removed from the adapter 300. The detents 128 and the detent windows 114 could be diposed on the other elements, i.e., the detents 128 could be on the plurality of plug housings 102 and the detent windows 114 on the integral spring pushes 126.

[0042] The common uniboot housing 104 also has a rear surface 116 that surrounds each of the integral spring pushes 126 to limit the rearward travel of the plurality of plug housings 102.

[0043] The transition area 124 provides for a gradual narrowing of the common uniboot housing 104 to prevent adverse handling of the optical fibers. At the back end 122 of the common uniboot housing 104 is a rounded exit for the optical fibers. On the outside there is a threaded area 130 for a crimp band to secure the strength members of optical cables.

[0044] On each of the top portion 104a and a bottom portion 104b are slide posts 132 that engage with the push-pull boot 108. As explained with regard to the push-pull boot 108, the slide posts 132 have a forward facing surface 134 that engages a portion of the push-pull boot 108 to assist in removing the uniboot connector 100 from the adapter 300.

[0045] Turning to the push-pull boot 108, it is best seen in FIGS. 12-14. The push-pull boot 108 allows for easy insertion and removal of the uniboot connector 100 from the adapter 300. The push-pull boot 108 has front portion 140, a middle portion 142, and a rear portion 144. The rear portion has spine 146 and a plurality of ribs 148. The spine 146 extends from the rear end 150 to the middle portion 142 and is parallel to a longitudinal axis A through the length of the push-pull boot 108. The plurality of ribs 148 generally extend around the rear portion 144. This configuration allows for the push-pull boot 108 to flex in all directions except along the longitudinal axis A. The rear portion 144 also includes a grasping portion 152. The spine 146, the ribs 148, and the grasping portion 152023 combine to form a portion of a central opening 154, which extends to a front portion 156 of the middle portion 142. The optical fibers and/or the fiber cable is threaded through the central opening 154 to protect it from being damaged in use.

[0046] The front portion 140 has a tongue 160 with a slot 162 to receive the slide post 132 from the bottom portion 104b of the common uniboot housing 104. On the top 164 of the middle portion 142 is a latch section 166 with a latch ramp 168 and a latch stop surface 170. The push-pull boot 108 also has rails 172 on the top 164 to engage the slideable latch 106. It should also be noted that the plurality of plug housings 102 also have rails 174 that engage the slideable latch 106. One of skill in the art would have noticed that the slideable latch 106 only engages the rails 174 in two of the plurality of plug housings 102, as depicted in FIGS. 1, 4 and 5, rather than all four of them. It is also clear that with the four plug housings 102, the two center plug housings 102 are connected to the slideable latch 106. It would also be possible for the slideable latch 106 to engage the two outside plug housings 102 instead. In any event, it is more convenient that all of the plug housings 102 have the rails 174 so that there no need to worry about having the correct one.

[0047] The slideable latch 106 has two front extensions 180 that extend forwardly from a middle portion 182. A crossbar 184 in the middle portion 182 joins the two front extensions 180 such that the front extensions 180, the crossbar 184 and the a forward facing element 186 of the middle portion 182 between the front extensions 180 but behind the crossbar 184 forms a post window 188 for the slide post 132 on the top portion 104a.

[0048] The slideable latch 106 is inserted from the rear over the latch ramp 168 and between the rails 172. The rear portion 190 of the slideable latch 106 includes a cantilevered portion 192 that slides on the latch ramp 168 as the slideable latch 106 is slid into the rails 172. The cantilevered portion 192 extends rearwardly from the middle portion 182. The cantilevered portion 192, which has a forward facing surface 194 (see FIG. 14) then engages the a latch stop surface 170 securing the slideable latch 106 to the push-pull boot 108. When the push-pull boot 108 is pulled on to remove the uniboot connector 100, the push-pull boot 108 pulls on the slideable latch 106 disengaging the latches in the front extensions 180 from the adapter 300. As the push-pull boot 108 is continued to be pulled, the slide posts 132, and the forward facing surface 134 in particular, engages the windows 162 and 188 causing the common uniboot housing 104 to be pulled backward and out of the adapter.

[0049] It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit and scope of the invention. Thus it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.