NONMETALLIC PUSH-IN CONNECTOR

Abstract

A push-in connector generally having an interior channel equipped with longitudinal protrusions that run at least part of the length of the interior channel of the connector body to define grooves through which wires of a different gauges can be inserted. When the user rotates the connector body about its longitudinal axis, the interior channel defines a second gauge through which a wire of a second gauge can pass. The connector body has one or more incisions cut into one end of the connector body and a separate cuff that fits over the feed end. The interior channel contains teeth that grip the wire(s) or cable(s) once inserted. The exterior of the connector body has flexible exterior protrusions that can be pushed down when inserting the connector through the knock-out of a housing and spring back into place to secure the connector to the housing.

Claims

1: A push-in connector comprising a body with an interior channel running the length of the longitudinal axis of the body; wherein the interior channel is shaped to snugly secure, in at least two different axes, a first gauge of cable inserted in a first orientation and a second gauge of cable inserted separately in a second orientation, the second orientation being accessible upon a corresponding specific rotation of the body around its longitudinal axis.

2: The push-in connector of claim 1 wherein the longitudinal channel features protrusions that define at least one groove capable of snugly securing the first gauge of cable in the first orientation.

3: The push-in connector of claim 1 wherein the longitudinal channel features protrusions that define at least two grooves each capable of snugly securing the first gauge of cable in the first orientation.

4: The push-in connector of claim 1 wherein the protrusions define a space that snugly secures the second gauge of cable in the second orientation.

5: The push-in connector of claim 1 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

6: The push-in connector of claim 2 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

7: The push-in connector of claim 3 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

8: The push-in connector of claim 4 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

9: A non-metallic push-in connector comprising: a body with an interior channel running the length of the longitudinal axis of the body; wherein the interior channel features at least two protrusions that define at least one groove and at least one space; wherein the at least one groove is sized to snugly secure a first gauge of cable inserted in a first orientation; and wherein the at least two protrusions define a space sized to snugly secure a second gauge of cable inserted separately from the first gauge of cable in a second orientation.

10: The non-metallic push-in connector of claim 9 further comprising a flange around an exterior circumference of the body.

11: The push-in connector of claim 10 further comprising at least one protrusion extending outward from the exterior surface of the body at one end of the body in a spaced relationship to the flange.

12: The non-metallic push-in connector of claim 11 further comprising: at least one longitudinal incision traversing the connector body from the interior channel to an exterior surface of the body and extending from an end of the body opposite the protrusion extending outward from the exterior surface of the body in a spaced relationship to the flange; and a cuff having a diameter equal to or less than the diameter of the exterior surface of the body.

13: The push-in connector of claim 9 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

14: The push-in connector of claim 10 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

15: The push-in connector of claim 11 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

16: The push-in connector of claim 12 wherein the first gauge of cable is 14/2 AWG cable and the second gauge of cable is 12/2 AWG cable.

17: A push-in connector comprising a non-metallic body with an interior channel running the length of the longitudinal axis of the body; the interior channel containing one or more protrusions that define a shape of the interior channel; the shape of the interior channel being able to snugly accept and secure cables of at least two different gauges, including without limitation a 14/2 AWG non-metallic cable and a 12/2 AWG non-metallic cable, within the interior channel, each of the different gauges being accessible upon a corresponding specific rotation of the body around its longitudinal axis; a flange around the exterior circumference of the body; at least one protrusion extending outward from the exterior surface of the body at one end of the body in a spaced relationship to the flange; and a non-screw means to constrict the circumference of the body, the means being a system comprising at least one longitudinal incision traversing the connector body from the interior channel to the exterior of the connector body and extending from the end of the body opposite the protrusion extending outward from the exterior surface of the body in a spaced relationship to the flange; and a cuff having a diameter equal to or less than the diameter of the exterior surface of the body.

18. The push-in connector of claim 17 wherein the protrusions in the interior channel extend from a first end of the connector body to a portion of the interior channel that is adjacent to the flange on the exterior of the body.

19. The push-in connector of claim 1 wherein the first gauge of cable is 12/2 AWG cable and the second gauge of cable is 10/2 AWG cable.

20. The push-in connector of claim 9 wherein the first gauge of cable is 12/2 AWG cable and the second gauge of cable is 10/2 AWG cable.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

[0019] FIG. 1 is a perspective view of the feed end of the connector;

[0020] FIG. 2 is a perspective view of the lead-in end of the connector;

[0021] FIG. 3 is an orthogonal view of the connector system with two 14/2 AWG cables inserted through the connector;

[0022] FIG. 4 is an orthogonal view of the connector system with one 12/2 AWG cable inserted through the connector;

[0023] FIG. 5 is a bottom view of the connector;

[0024] FIG. 6 is a side view of an embodiment of the connector; and

[0025] FIG. 7 is a side view of an embodiment of the connector.

DETAILED DESCRIPTION OF THE INVENTION

[0026] Referring now to the invention in more detail, FIGS. 1 and 2 show perspective views of an embodiment of the disclosed connector. More specifically, the push-in connector, generally 1, has a body 2. Note, those skilled in the art can immediately appreciate that the body of the connector can be any shape needed to fit into an electrical housing. Since most electrical housings for residential electrical enclosures and lighting fixtures have circular knock-outs, the connector body 2 is shown to be generally cylindrical. FIG. 1 is a perspective view showing the feed end 8 of the connector. FIG. 2 is a perspective view showing the lead-in end of the connector 1. The connector body 2 has an interior channel 3 running the longitudinal length of the connector body 2. In one embodiment of the disclosed connector, the interior channel 3 of the connector body 2 contains one or more longitudinal protrusions 4. The longitudinal protrusions 4 extend longitudinally along at least part of the interior channel 3 of the connector body 2, and in at least one embodiment, extend along the interior channel 3 of the connector body 2 until a point adjacent to an annular flange 5 on the exterior of the connector. The longitudinal protrusions 4 form grooves 6 through which wires or cables of a particular size or gauge can be inserted. As can be seen in FIGS. 1 and 2, the longitudinal protrusions 4 define grooves 6 that are not completely enclosed. As a result, the longitudinal protrusions form a space 15 that can securely and snugly accommodate cables or wires inserted into that space by turning the body of the connector approximately 90 degrees before insertion. In addition to the longitudinal protrusions 4 running along the interior channel 3 of the connector body 2, the interior channel 3 can contain one or more teeth 7 located inside the grooves 6 such that they can grip and help secure wires inserted through the grooves 6.

[0027] Furthermore, there is an annular flange 5 that extends along the exterior circumference of the connector body 2. There is at least one incision 9 running longitudinally with the axis of the connector body 2 and traversing the cylindrical body from the interior channel 3 to the exterior of the connector body 2. In a preferred embodiment, one or more incisions 9 are located in the exterior of the connector body 2 near the feed end 8 of the connector. These incisions 9 make the connector body 2 more flexible when a user inserts one or more cables into the connector body 2. The feed end 8 is equipped with a removable cylindrical cuff 10 (not shown in FIGS. 1 and 2). In another preferred embodiment of the connector 1, the exterior of the connector body 2 features one or more exterior protrusions 11 extending outward from the exterior of the connector body 2 and spaced away from the flange such that the exterior protrusion(s) 11 are closer than the flange 5 to the lead-in end 12 of the connector body 2.

[0028] When using the connector 1 to install electrical wiring or cables, the lead-in end 12 of the connector body 2 is inserted into the housing 13 of an electrical device (not shown) such as a lighting fixture, splice box, junction box, etc. The lead-in end 12 is inserted through the knock-out of a housing 13 until the flange 5 contacts the outer surface of the housing. The exterior protrusion(s) 11 on the exterior of the connector body 2 near the lead-in end 12 pass through the knock-out until they are positioned on the inside of the housing 13 opposite the flange 5. The exterior protrusions 11 are flexible and can be pushed down and out of the way as they pass through the electrical housing 13. When the exterior protrusions 11 emerge from the other side of the knock out and housing 13 they spring back into place and contact the inside of the housing 13. As a result, the connector body 2 is held securely to the housing 13 by the flange 5 and the exterior protrusion(s) 11 on the exterior of the connector body 2 near the lead-in end 12.

[0029] During installation, one or more wires or cables are inserted through the separate cuff 10 and then into the interior channel 3 of the connector body 2 beginning at the feed end 8. Note the cuff 10 is generally cylindrical, but can be any shape necessary to fit over the connector body 2. The longitudinal protrusions 4 in the interior channel 3 of the connector body 2 serve to guide the wires or cables through the interior channel 3 of connector body 2 and help hold the wires or cables in place once inserted. Through trial and error, the inventor has discovered the wires and cables pass through the connector body most easily when the longitudinal protrusion(s) 4 do not run the full length of the interior channel 3. In a preferred embodiment, the longitudinal protrusions 4 extend longitudinally along the interior channel 3 of the connector body 2 until a point adjacent to the flange 5 on the exterior of the connector. The wires or cables are fed through the interior channel 3 of the connector body 2 until they exit through the lead-in end 12. The user then attaches the separate cylindrical cuff 10 over the feed end 8 including the incision(s) 9 of the connector body 2. Since the interior circumference of the cylindrical cuff is either equal to or less than the exterior circumference of the connector body 2, the cuff 10 applies pressure to the exterior of the connector body 2 over the feed end 8 thus securing the wires inside the connector body 2.

[0030] Referring now to the invention in more detail, FIG. 3 shows a preferred embodiment of the connector, generally 1, with two cables of a first gauge 14 inserted through the interior channel 3 of the connector body 2. In this embodiment, the longitudinal protrusions 4 define grooves 6 into which wires of a first size or gauge fit securely. When this applicant uses the phrase fits securely or snugly the Applicant means the cables are held in place snugly enough by the physical structures, i.e. the grooves 6 and the longitudinal protrusions 4, that the cables cannot be easily removed from the connector body. More specifically, when cables of a first gauge are inserted into the interior channel 3, the grooves 6 formed by the interior of the body and the longitudinal protrusions 4 contact and snugly secure the wire(s) or cable(s) in more than one dimension, direction or axis, i.e., the wire(s) or cable(s) contact the inner surface of the grooves 6 as well as longitudinal protrusions 4 and are thereby securely held in place from more than one side or angle.

[0031] In a preferred embodiment, the first gauge is 14/2 AWG. When using the connector system 1 to install 14/2 AWG wiring into an electrical housing 13, the lead-in end 12 of the connector body 2 is inserted into the housing of an electrical device 13 such as a lighting fixture, splice box, junction box, etc. as described above. During installation, cables are inserted through the cuff 10 and then into the interior channel 3 beginning at the feed end 8. Longitudinal protrusions 4 (not shown) in the interior channel 3 of the connector body serve to guide the cables through the connector body 2 and hold the cables in place once inserted. The cables are fed through the interior channel 3 of the connector body 2 until they exit through the lead-in end 12. The user then attaches the separate cuff 10 over the feed end 8 including the incision(s) 9 (not shown) of the connector body 2. Since the interior circumference of the cuff is either equal to or less than the exterior circumference of the cuff 10, the cuff 10 applies pressure to the exterior of the connector body 2 over the feed end 8 thus further securing the cables inside the connector body 2.

[0032] Referring now to the invention in more detail, FIG. 4 shows the connector system 1 with a single cable of a particular gauge inserted through the interior channel 3 of the connector body 2. In a preferred embodiment, the gauge is 12/2 AWG cable. The connector system 1 is able to accommodate a cable of a second gauge by rotating the connector body 2 about its longitudinal axis and inserting the cable of a second size or gauge into the space 15 between the two longitudinal protrusions. In the case of the embodiment meant to accommodate two 14/2 AWG cables or a single 12/2 AWG cable, the connector body 2 is rotated approximately ninety degrees (90). As mentioned above, the interior channel 3 of the connector includes one or more longitudinal protrusions 4 running lengthwise along the interior channel 3 of the connector body 2. Moreover, the longitudinal protrusions 4 are discrete or separate and do not enclose the spaces through which the wires pass. As a result, when the user rotates the connector body 2 ninety degrees (90) about its longitudinal axis, the space 15 between the two longitudinal protrusions can accommodate and snugly secure a wire of a second size or gauge. More specifically, the cable of a second gauge is snugly secured into the connector by being in contact with the interior of the grooves 6 as well as the longitudinal protrusions 4 and is secured in place by being held by the connector in more than one direction, axis or dimension.

[0033] Furthermore, in alternate embodiments, the longitudinal protrusions 4 can be any size or shape and can be present or absent from the interior channel 3 such that the interior channel 3 can accommodate wires of two or more sizes or gauges.

[0034] In a preferred embodiment, the second gauge cable is a 12/2 AWG cable. When using the connector 1 to install 12/2 AWG cable into an electrical housing 13, the lead-in end 13 of the connector body 2 is inserted into the housing 13 of an electrical device such as a lighting fixture, splice box, junction box, etc. as described above. During installation, a single 12/2 AWG cable is inserted through the cuff 10 and then into the interior channel 3 beginning at the feed end 8. The cable is fed through the interior channel 3 of the connector body 2 until it exits through the lead-in end 12 (not shown). The user then attaches the separate cuff 10 over the feed end 8 including the incision(s) 9 of the connector body 2. Since the interior circumference of the cuff 10 is either equal to or less than the exterior circumference of the body 2, the cuff 10 applies pressure to the exterior of the connector body 2 over the feed end 8 thus securing the wires inside the connector body 2.

[0035] Referring now to a preferred embodiment in more detail, FIG. 5 shows the feed end 8 of the connector body 2. In this embodiment, the interior channel 3 of the connector body 2 includes two longitudinal protrusions 4. The longitudinal protrusions 4 define two grooves 6 through which wires of a first gauge 14 can be inserted. As discussed earlier, the grooves 6 are not enclosed. As a result, when the user rotates the connector body 2 ninety degrees (90) about its longitudinal axis, the space 15 between the two protrusions defines a second channel through which a wire of a second gauge can pass and be held snugly and/or securely.

[0036] FIGS. 6 and 7 show the exterior features of the connector in more detail. Located on the exterior of the connector body 2, there is at least one incision 9 running lengthwise along the longitudinal axis of the exterior of the connector body 2. In a preferred embodiment, one or more incisions 9 are located in the exterior of the connector body 2 near the feed end 8 of the connector body 2. These incisions 9 make the body 2 of the connector more flexible when a user inserts one or more wires (not shown) into the connector body 2.

[0037] FIGS. 6 and 7 also show an embodiment in which there are two sets of exterior protrusions 11 extending outward from the exterior of the connector body 2. Since it is common for electrical housings made of different materials to have different widths, the connector body 2 can be equipped with exterior protrusions 11 located at varying distances from the flange 5 such that one connector can be used with housings made of different materials. In addition, one or more sets of exterior protrusions 11 can be located above a cavity 16 such that when downward pressure is applied to the exterior protrusions 11 such as when the connector body 2 is being inserted through the housing 13 (not shown), the exterior protrusion(s) 11 located over the cavity 16 can be pressed down into the cavity 16. Doing so will facilitate pushing the exterior protrusion 11 located over the cavity 16 out of the way during insertion into the housing 13. For example, when installing the connector into a plastic housing (not shown) the exterior protrusion 11 that is/are closest to the flange 5 can be pushed down into the gap by the housing (not shown) so that the second exterior protrusion 11 is in position to contact the inside of the housing 13 opposite the point where the flange 5 contacts the outside of the same housing 13. The concerted action of the exterior protrusions 11 and the flange 5 secures the connector body 2 to the housing.

[0038] Finally, an alternate embodiment contemplated by the inventor uses different sizes of cables but is otherwise structurally identical to the above described embodiments. For example, the interior channel 3, grooves 6 and the space 15 can be altered to accommodate and secure cables of other sizes or gaugesfor example, the inventor specifically contemplates a connector that securely holds one or two 12/2 AWG cables and a single 10/2 AWG cable.

[0039] Reference throughout the specification to features, advantages, or similar language does not imply that all of the features and advantages that may be realized with the present invention should be or are in any single embodiment of the invention. Rather, language referring to the features and advantages is understood to mean that a specific feature, advantage, or characteristic described in connection with an embodiment is included in at least one embodiment of the present invention. Thus, discussion of the features and advantages, and similar language, throughout the specification may, but do not necessarily, refer to the same embodiment.

[0040] Furthermore, the described features, advantages, and characteristics of the invention may be combined in any suitable manner in one or more embodiments. One skilled in the relevant art will recognize that the invention can be practiced without one or more of the specific features or advantages of a particular embodiment. In other instances, additional features and advantages may be recognized in certain embodiments that may not be present in all embodiments of the invention.

[0041] It is understood that the above described embodiments are only illustrative of the application of the principles of the present invention. The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiment, including the best mode, is to be considered in all respects only as illustrative and not restrictive. The scope of the invention is, therefore, indicated by the appended claims, if any, in conjunction with the foregoing description.

[0042] While the foregoing written description of the invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiment, method, and examples herein. The invention should therefore not be limited by the above described embodiment, method, and examples, but by all embodiments and methods within the scope and spirit of the invention.