CIRCUIT BREAKER, CIRCUIT BREAKER TERMINAL LUG COVER, AND METHOD OF PROTECTING A TERMINAL LUG

BACKGROUND

Field

The disclosed concept pertains generally to heat and corrosion protection devices and, more particularly, to devices used to protect circuit breaker terminals, terminal screw threads, connecting cables, and the like, from heat and corrosion caused by high temperature gases. The disclosed concept further pertains to circuit breakers. The disclosed concept also pertains to methods of protecting circuit breaker terminals, terminal screw threads, connecting cables, and the like.

Background Information

A circuit breaker apparatus as it is defined in the pre-characterizing portion of claim 1 is shown in US 2005/057333 A1.

Circuit breakers function to interrupt the flow of electric current when an overload or short circuit is detected within a power circuit. When the circuit breaker interrupts the overload or short circuit current, an arc is generated, which creates exhaust gases of high temperature. These ionized exhaust gases can damage the terminal lug of the circuit breaker by causing corrosion. Additionally, the heated exhaust gases can damage the circuit breaker terminal lug by causing connecting cables to melt onto the terminal lug. Corrosion of the terminal lug coupled with melted cable material can damage terminal lug screw threads rendering the threads and terminal lug unusable.

When the cabling connected to a circuit breaker melts onto the terminal lug, such that removal thereof becomes difficult, it is standard practice to cut the damaged cabling. Additionally, when circuit breaker terminal lugs have degraded to such a degree that corrosion and cable melt have made the terminal lug and threads therein unusable, it is standard practice to replace the terminal lug, or in some cases, the entire circuit breaker. Information relevant to attempts to address these problems are found in U.S. Patent No. 5,111,008. However, it is believed that the teachings found in this Patent suffer from the fact that it is not easily adoptable to interface between a commercial circuit beaker and its terminal lug.

Also, several manufacturers of industrial circuit breakers have produced "terminal shields". These shields are not to be confused with the device to be described hereinbelow. In contrast to the device described by the disclosed concept, "terminal shields" lie between the internal phases of a circuit breaker and protect each phase from the arc of another phase. It is believed that such terminal shields fail to properly address or protect external circuit breaker terminal lugs and connecting cables from such arcing events.

Consequently, a need exists in the art for a method, apparatus, and device capable of preventing such terminal lug degradation or corrosion.

There is room for improvement in circuit breakers.

There is also room for improvement in circuit breaker terminal lugs.

There is further room for improvement in methods of protecting circuit breaker terminal lugs.

SUMMARY

These needs and others are met by embodiments of the disclosed concept in which a circuit breaker terminal lug cover protects a circuit breaker terminal lug and a number of connecting cables from degradation or corrosion (e.g., without limitation, caused by heat and/or ionized exhaust gasses).

The present invention is a circuit breaker apparatus as it is defined in claim 1 and a method as it defined in claim 9.

BRIEF DESCRIPTION OF THE DRAWINGS

A full understanding of the disclosed concept can be gained from the following description of the preferred embodiments when read in conjunction with the accompanying drawings in which:

• Figure 1 is a partially exploded isometric view of an electrical circuit breaker, including a circuit breaker terminal lug and a terminal lug cover in accordance with embodiments of the disclosed concept.
• Figure 2 is an exploded isometric view of the terminal lug and the terminal lug cover of Figure 1.
• Figure 3 is a side profile view of a fully assembled terminal lug cover mechanically coupled to and assembled to the terminal lug of Figure 2.
• Figure 4 is a front profile view of the terminal lug cover shown mechanically affixed and assembled to the terminal lug of Figures 1-3.
• Figure 5 is a top plan view of the terminal lug cover affixed and assembled to the terminal lug of Figures 1-4.
• Figure 6 is a top plan view of the terminal lug cover affixed to the terminal lug of Figure 5, except magnified to show details of the terminal lug and the terminal lug cover.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

As employed herein, the term "number" shall mean one or an integer greater than one (i.e., a plurality).

As employed herein, the statement that two or more parts are "connected" or "coupled" or "affixed" together shall mean that the parts are joined together either directly or joined through one or more intermediate parts. Further, as employed herein, the statement that two or more parts are "attached" shall mean that the parts are joined together directly,

As employed herein, the term "circuit breaker" shall mean any electrical switch or circuit interrupter that interrupts the flow of electrical current in an electrical circuit upon the existence or occurrence of specified number of electrical/mechanical fault conditions, and that permits the flow of electric current in the electrical circuit under other conditions.

As employed herein, the term "circuit breaker terminal" shall mean a component of a circuit breaker that permits a number of cables of a circuit to connect to the circuit breaker.

As employed herein, the term "circuit breaker terminal lug" or "terminal lug" shall mean a physical component of a circuit breaker having a circuit breaker terminal.

As employed herein, the term "hole" shall mean an opening through something; an area where something is missing; or an aperture through something.

As employed herein, the term "access hole" shall mean a hole through or in something to access something else.

As employed herein, the term "screw" shall mean a simple machine of the inclined plane type consisting of a spirally grooved solid cylinder structured to fit into a correspondingly grooved hollow cylinder; a nail-shaped or rod-shaped piece with a spiral groove structured to fit into a correspondingly grooved hallow material by rotating; or a threaded or spirally grooved fastener structured to fit into a correspondingly threaded or spirally grooved terminal lug by rotating.

As employed herein, the term "cable" shall mean a circuit conductor having a number of individual electrical conductors.

The disclosed concept provides advantageous apparatus and devices for protecting circuit breakers from failure, degradation, corrosion, and eventual replacement due to excessive heat resulting from ionized gases released during arcing events. The circuit breaker terminal lug covers described herein prolong the operational lifetime of circuit breakers, and their connecting components. Using the apparatus and devices according to the discloses concept, thermal energy and/or ionized exhaust gasses are efficiently and effectively conducted away from or deflected away from the circuit breaker and its connecting cables.

Figure 1 shows an isometric view of one embodiment of an electrical circuit breaker 3, including a circuit breaker terminal lug 2 and a terminal lug cover 1. The electrical circuit breaker 3, a number of the circuit breaker terminal lugs 2 and a number of the terminal lug covers 1 form a circuit breaker apparatus 4. The example circuit breaker 3 includes six example circuit breaker terminals, although the disclosed concept is applicable to circuit breakers having any suitably number of circuit breaker terminals. As shown in the embodiment of Figure 1, three terminals are on a top (with respect to Figure 1) portion of the circuit breaker 3, and three terminals are on a bottom (with respect to Figure 1) portion thereof Five of the circuit breaker terminals, are shown as being assembled, having a terminal lug cover 1 shown affixed to a terminal lug 2. The terminal lugs 2 (only one is shown in Figure 1, it being understood that each of the circuit breaker terminals, includes a terminal lug 2) and associated and respective terminal lug covers 1 are shown as assembled with the circuit breaker 3 in five of the six terminal assemblies of Figure 1. A sixth terminal, assembly of Figure 1 shows the terminal lug 2 and the terminal lug cover 1 in exploded fashion, shown in an "unassembled" arrangement (i.e., unassembled from the circuit breaker 3).

As shown in Figure 1, each terminal lug 2 includes a number of terminal lug screws 5 that are used to secure a number of circuit breaker cables (not shown) to each terminal lug 2. The terminal lug cover 1 includes an access hole 6 which allows for a screwdriver or similar tool (not shown) to tighten the number of terminal lug screws 5 to the number of cables (not shown). In one embodiment, as shown in Figure 1, the terminal lug cover 1 includes a lower flange 7 and securing clips 8. The lower flange 7 and securing clips 8 are used in assembling and affixing the terminal lug cover 1 to the terminal lug 2.

The terminal lug 2 can be made of copper, aluminum or any other suitably conductor for a circuit, such as a power circuit

The terminal lug cover 1 can be made of a suitable thermoplastic material (e.g., without limitation, LEXAN^® 500 10% glass filled V0 rated).

The terminal lug cover 1 advantageously couples to a portion of the terminal lug 2 external to the circuit breaker 3, The terminal lug 2 is removable from the circuit breaker 3. The upper (with respect to Figure 1) portion of the terminal lug 2 and the terminal lug cover 1 coupled thereto are both external to the circuit breaker 3. The terminal lug 2 electrically and mechanically connects to one of the line or load conductors (not shown) of the circuit breaker 4 via a terminal mounting screw (not shown).

Figure 2 shows an exploded isometric view of the terminal lug 2 and the terminal lug cover 1. As shown in Figure 2, the terminal lug 2 includes two terminal lug screws 5 used to secure a number of cables (not shown) to each terminal The embodiment of Figure 2 further shows the terminal lug cover 1 including the securing clips 8. The securing clips 8 extend from a top (with respect to Figure 2) portion of the terminal lug cover 1. In the embodiments shown, the terminal lug cover 1 includes the flange 7 extending therefrom. The access hole 6 is provided through the terminal lug cover 1 as shown in Figure 2. The access hole 6 permits access to a number of the terminal lug screws 5, which are in turn used to couple cabling (not shown) to a respective circuit breaker terminal (not shown) positioned within the circuit breaker.

Figure 3 shows a side profile view of the fully assembled terminal lug cover 1 mechanically coupled to and assembled to the terminal lug 2. In the embodiment shown in Figure 3, a side profile of the terminal lug 2 is visible. In this embodiment, the terminal lug cover 1 is snugly affixed to the terminal lug 2 via the top (with respect to Figure 3) securing clips 8 (only one securing clip 8 is shown in Figure 3). A profile view of the lower (with respect to Figure 3) flange 7 of the terminal lug cover 1 described above with reference to Figures 1 and 2 is shown in contact with a lower (with respect to Figure 3) half of the terminal lug 2. The terminal lug cover 1 fits snugly on a front side 16, a bottom side 17, and two opposing sides 18, 19 (shown in Figure 2) of the terminal lug 2 in order that physical contact between the terminal lug cover 1 and the terminal lug 2 permits the terminal lug cover I to conduct heat away from the terminal lug 2 and the number of cables (not shown) and/or deflect ionized gases away from the terminal lug 2.

Figure 4 is a front (with respect to Figures 1 and 4) profile view of the terminal lug cover 1 of Figures 1-3 shown mechanically affixed and assembled to the terminal lug 2 described above with reference to Figures 1-3, The embodiment of the terminal lug cover 1 shown in Figure 4 comprises four sides 10,11,12,13, the securing claps 8 described above with reference to Figures 1-3, the lower (with respect to Figure 4) flange 7, and the access hole 6 located on the front (with respect to Figure 4) side 10 of the terminal lug cover 1. As described above with reference to Figures 1 and 2, the access hole 6 allows access to a number of the terminal lug screws 5 by a screwdriver or similar tool (not shown). As described above, the number of terminal lug screws 5 may be used to secure a number of connecting cables (not shown) to the terminal lug 2.

Figure 5 shows a top (with respect to Figures 1 and 5) plan view of the terminal lug cover 1 affixed and assembled to the terminal lug 2 described above with reference to Figures 1-4. As shown in Figures 3-5, three 10,12,13 of the four sides 10,11,12,13 of the terminal lug cover 1 are shown, affixed to the terminal lug 2. The securing clips 8 described above with reference to Figures 1-4 help secure the terminal lug cover 1 to the terminal lug 2. As shown in Figure 5, one embodiment of the terminal lug cover 1 also includes additional securing clips 9 that span the vertical (with respect to Figure 1) length of the rear (with respect to Figure 1) portion of the terminal lug cover 1. In this embodiment, the additional securing clips 9 help to further secure and mechanically affix the terminal lug cover 1 to the terminal lug 2. In one embodiment, the additional securing clips 9 interface with and couple to a chamfered edge 14 (a top portion of which is best shown in Figure 6) of the terminal lug 2 wherein the chamfered edge 14 is structured to mechanically couple to the additional securing clips 9.

Figure 6 is a top (with respect to Figures 1, 5 and 6) plan view of the terminal lug cover I affixed to the terminal lug 2 of Figure 5, except magnified to show the terminal lug cover 1 in more detail. In this embodiment, a top (with respect to Figure 1) portion of the terminal lug 2 is shown mechanically coupled to the terminal lug cover 1. Tree 10,12,13 of the four sides 10,11,12,13 of the terminal lug cover 1 are in view, as well as the securing clips 8 and additional securing clips 9.

The disclosed terminal lug cover 1 protects the terminal lug 2 against relatively high temperature exhaust gasses after the circuit breaker 3 has interrupted the corresponding circuit (not shown). The terminal lug cover 1 protects against erosion of the terminal of the terminal lugs 2 from melted terminal material caused by high temperature gases exiting the circuit breaker 3. Since terminals and lug screw threads can otherwise bye damaged to a point where the cabling would need to be cut in order to change out the product, the disclosed solution can held avoid potentially costly repairs, beyond a simple circuit breaker replacement.

The disclosed terminal lug cover 1 assembles to the profile of the circuit breaker terminal lug 2, with securing clips 8 and/or 9 to hold the cover in position. The cover 1 allows access to a number of the circuit breaker terminal lug screws 5 in order to connect cabling. The cover 1 then deflects ionized gases away from the body of the terminal lug 2.

In view of what is described above, one skilled in the art will understand that the embodiments of the assembly thus far described comprise the circuit breaker 3, the circuit breaker terminal lug 2, and the terminal lug cover 1. One embodiment of the disclosed concept utilizes a terminal lug cover, such as 1, having four sides 10,11,12,13 with the lower (with respect to Figure 1) flange 7 and the top (with respect to Figure 1) securing clips 8 as well as the rear (with respect to Figure 1) securing clips 9 and the circular hole 6 in the face allowing for the terminal lug screw 5 to pass through and connect to the terminal. The characteristics of the terminal lug cover 1 function to affix securely to the terminal lug 2 and carry heat away from the terminal lug 2 and connecting cables (not shown) through physical contact and/or function as a shield and deflect ionized gases away from the terminal lug 2. The gases deflect off of the shield, thereby preventing the heat of the gases from melting the terminal's material and the cable's insulation/conductor material. Preferably, the material of the terminal lug cover 1 includes a suitable fire retardant component (e.g., without limitation, a V0 fire retardant component).

One skilled in the art may find advantages by using a mechanism different than the securing clips 8 and/or 9 to fasten the terminal lug cover 1 to the terminal lugs 2. One skilled in the art may also find advantages by using a different type of hole than the circular hole 6 on the front (with respect to Figure 1) side 10 of the terminal lug cover 1 to permit the terminal lug screw 5 to pass through such cover. One skilled in the art may also find advantages by using more or fewer sides for the terminal lug cover 1. One skilled in the art may also find advantages by changing the shape and orientation of the flange 7 such that it may not exist at all, or in the alternative, may extend the full length of the lower (with respect to Figure 1) half of the terminal lug 2, while containing an additional access hole or terminal lug screw pass-through feature (not shown).

According to several embodiments, the disclosed concept will extend the life of circuit breaker terminal lugs and connecting cables (not shown) by protecting against degradation and/or corrosion from heat, ionized exhaust gasses or connecting cable melt These advantageous characteristics of the terminal lug cover 1 will result in substantial cost savings in circuit breaker maintenance.

What has been shown is the circuit breaker terminal lug cover 1. While the terminal lug cover 1 has been described through specific embodiments and applications thereof, it is understood that numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the disclosed concept. It is therefore understood that within the scope of the claims, the disclosed concept may be practiced otherwise than specifically described herein.

Accordingly, it is to be understood that the disclosed concept is not to be limited by the specific illustrated embodiments, but only by the scope of the appended claims.

The disclosed concept is described in association with a molded case circuit breaker, although the disclosed concept is applicable to a wide range of circuit breakers.

While specific embodiments of the disclosed concept have been described in detail, it will be appreciated by those skilled in the art that various modifications and alternatives to those details could be developed in light of the overall teachings of the disclosure. Accordingly, the particular arrangements disclosed are meant to be illustrative only.