BACKGROUND OF THE INVENTION The present invention relates to a circuit breaker handle arrangement, and more particularly relates to a locking mechanism for locking the circuit breaker handle in either an on position or an off position.

Circuit breaker handles today can typically be easily moved from an on position to an off position and from an off position to an on position, either manually or under trip conditions. Such manual ease of use is suitable for professional electricians and for end users in control of the connected environment. However, where control of the on-off status of a circuit breaker should not be given to unauthorized users or where the circuit breaker should remain on or off under certain circumstances, the ability to lock the circuit breaker handle into place would be desirable.

SUMMARY OF THE INVENTION In an exemplary embodiment of the invention, a locking device comprises a first part having a first squeezable side and a second squeezable side, the first and second squeezable sides each having a top end and a bottom end, the first part further having a first connecting side and a second connecting side, the first and second connecting sides connecting the top end of the first squeezable side to the top end of the second squeezable side. A first slot-engaging tab preferably extends outwardly from the bottom end of the first squeezable side and a second slot-engaging tab preferably extends outwardly from the bottom end of the second squeezable side.

The first part is sized to fit within a handle slot of a circuit breaker housing with the

first and second slot-engaging tabs retaining the first part within the handle slot. The first part may be removed from the handle slot by compressing the first and second squeezable sides inwardly to release the first and second slot engaging tabs from the handle slot. The locking device may further comprise a second part sized to fit within the first part, wherein the second part engaged with the first part prevents the first and second squeezable sides of the first part from being compressed inwardly, thus preventing the removal of the locking device.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows a top exploded perspective view of a circuit breaker with a handle in an OFF position and a locking mechanism of the present invention; Fig. 2 shows a partial perspective view of a first part of a locking mechanism of the present invention; Fig. 3 shows a perspective view of an insert member removed from the first part of the locking mechanism; Fig. 4 shows a perspective view of the insert member placed on an opposite side of the first part of the locking mechanism; Fig. 5 shows a top exploded perspective view of a circuit breaker with a handle in an ON position and a locking mechanism of the present invention; Fig. 6 shows a top perspective view of the second part of the locking mechanism of the present invention inserted within the first part; Fig. 7 shows a side perspective view of the first part of the locking mechanism; Fig. 8 shows a top plan view of the first part of the locking mechanism; Fig. 9 shows a side plan view of the first part of the locking mechanism;

Fig. 10 shows a right-side perspective view of the second part of the locking mechanism; Fig. 11 shows a left-side perspective view of the second part of the locking mechanism; Fig. 12 shows a top plan view of the second part of the locking mechanism; Fig. 13 shows a right-side plan view of the second part of the locking mechanism; and, Fig. 14 shows a cross-sectional view taken along line 14-14 of Fig. 13.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in Fig. 1, a circuit breaker 10 is provided with a circuit breaker handle 12 moved to an OFF position. Within the circuit breaker 10, the handle 12 is connected to mechanisms (not shown) which enable the handle 12 to move from the OFF position to an ON position, or an ON position to an OFF position, either manually or through a tripping action. The handle 12 protrudes from an elongated slot 14 within the circuit breaker 10. The slot 14 has an OFF-side 16 and an ON-side 18 which correspond to OFF and ON positions of the handle 12. Without the locking mechanism of the present invention, the circuit breaker handle 12 could be moved manually from the OFF position shown to an ON position by sliding the handle 12 from the OFF-side 16 to the ON-side 18 of the elongated slot 14. Under certain circumstances, however, it may be desirable to maintain the circuit breaker 10 in an OFF condition, which would require the circuit breaker handle 12 to remain in the OFF position adjacent the OFF-side 16 of elongated slot 14.

The present invention provides a locking mechanism or device 20 which can insure that the circuit breaker handle 12 will not be moved inadvertently or purposely from an OFF position to an ON position.

The locking mechanism 20 of the present invention is in the form of a blocking member which blocks the handle 12 from moving in one direction or the other, depending on which position the handle 12 is to be locked. The blocking member preferably includes a first part 30 and a second part 60. The first part 30, as shown in detail in Figs. 7-9, preferably includes a first squeezable side 32 having a top end 34 and a bottom end 36 and a second squeezable side 38 having a top end 40 and a bottom end 42. The first part 30 further preferably has a first connecting side 44 and a second connecting side 46 sized to fit within the width of the elongated slot 14.

The first and second connecting sides 44 and 46 connect the top end 34 of the first squeezable side 32 to the top end 40 of the second squeezable side 38. Also, each squeezable side 32,38 preferably includes a snap fit profile or tab 48 at the bottom ends 36,42. The tabs 48 are preferably dimensioned to catch with the interior of the molded frame of the circuit breaker at the elongated slot 14. That is, the first part 30 may be pushed within the elongated slot 14 until the first part 30 snaps into place.

The elongated slot 14 may include indents 50 to correctly align and capture the tabs 48 therein. The first part 30 may be removed from the elongated slot 14 by compressing the squeezable sides 32,38 towards each other, i. e. inwardly, thus releasing the snap fit profiles or tabs 48 from the interior of the elongated slot 14 or from indents 50, and pulling the first part 30 out from the elongated slot 14. Thus, when used alone, the first part 30 of the locking mechanism 20 will effectively prevent someone from accidentally moving the circuit breaker handle 12 from an OFF position to an ON position. Also, when used alone, the first part 30 can provide a reversible locking mechanism for use in either the OFF or ON position.

As further shown in Figs. 7-9, the first part 30 can include a locking mechanism handle portion 52 which connects the first and second connecting sides 44,46 of the first part 30 to enable the first part 30 to be easily lifted out of the elongated slot 14 during removal.

The locking mechanism 20 of the present invention may further comprise a second part 60, as detailed in Figs. 10-14, which cooperates with the first part 30 to render the locking effect of the locking mechanism 20 substantially irreversible. As shown in Fig. 1, the second part 60 preferably fits within the

squeezable sides 32,38 of the first part 30. When in place, the second part 60 prevents the squeezable sides 32,38 of the first part 30 from being squeezed together, thus disabling the removal of the first part 30 from the elongated slot 14. The second part 60 preferably includes a first surface 62 having a top end 64 and a bottom end 66 and a second surface 68 having a top end 70 and a bottom end 72. The second part 60 further preferably includes a top surface 74 connecting the top end 70 of the second surface 68 to the top end 64 of the first surface 62. The top surface 74 preferably includes a pair, or more, of protrusions 76,78 for spacing apart padlocks as will be discussed. When positioned within the first part 30, the second part 60 is preferably seated on one side of the handle 52 as shown. As shown, the second surface 68 of the second part 60 is curved to compliment the curved surface of the second squeezable side 38. The second surface 68 is preferably in direct abutment with the second squeezable side 38 and further preferably includes a longitudinal rib 80, which may extend from the top end 70 to the bottom end 72 of the second surface 68, for further compression against the second squeezable side 38, thus further preventing the second squeezable side 38 from being squeezed, and thus retaining the locking mechanism 20 within the elongated handle slot 14.

To retain the second part 60 within the first part 30, the first part 30 preferably includes an insert portion 90 shown in Fig. 8 which extends from the first connecting side 44 and into the interior of the first part 30. The insert portion 90 is preferably integrally attached to the first connecting side 44. The insert portion 90 preferably includes a pair of flanges 92 which cooperate with flanges 94 within the second part 60 to retain the second part 60 within the first part 30. Alternatively, the mating flanges 92 and 94 could be replaced with dovetail grooves and recesses, mating ribs and grooves, or other suitable means for retention.

With the insert portion 90 adjacent the ON-side 18 of the elongated slot 14, the first part 30, having the insert portion 90 on the first connecting side 44, blocks the area of the first connecting side 44 such that the circuit breaker handle 12 can only extend underneath the second connecting side 46 of the first part 30. In this initial position of the insert portion 90, the locking mechanism 20 can only be used to lock the handle 12 in the OFF position.

As shown in Fig. 5, a circuit breaker 10 is provided with a circuit breaker handle 12 moved to an ON position. Without the locking mechanism 20 of the present invention, the circuit breaker handle 12 could be moved manually from the ON position shown to an OFF position by sliding the handle 12 towards the OFF-side 16 of the elongated slot 14 (to the position shown in Fig. 1). Under certain circumstances, however, it may be desirable to maintain the circuit breaker 10 in an ON condition, which would require the circuit breaker handle 12 to remain in the ON position as shown in Fig. 5.

The locking mechanism 20 of the present invention is also designed to insure that the circuit breaker handle 12 will not be moved inadvertently or purposely from an ON position to an OFF position.

When the first part 30 is used to lock the circuit breaker handle 12 in the ON position, the insert portion 90 may be removed from the first connecting side 44 of the first part 30. Removal of the insert portion 90 may be accomplished by providing lines of weakness 96 within the material of the first part 30 as shown in Fig.

2 and knocking-out the insert portion 90 along the lines of weakness 96. Once removed, the insert portion 90 may appear as shown in Fig. 3, and then be moved to the second connecting side 46 and secured thereto as shown in Fig. 4. The insert portion 90 may include snap profiles or tabs 98 which can be pushed within a slot 47 in the second connecting side 46 to retain the insert portion 90 in its new position along second connecting side 46. With the insert portion 90 in the position shown in Fig. 4, the first part 30 is configured to allow a circuit breaker handle 12 to pass underneath the first connecting side 44, and may thus be used to lock the circuit breaker handle 12 in the ON position. The second part 60 preferably includes a second pair of mating flanges 94, or other engagement device, to accommodate engagement with the insert portion 90 in this new position.

As shown, removing the insert portion 90 from the first part 30 is a one-time field modification. That is, if a customer desires to use the locking mechanism 20 for ON locking, then the insert portion 90 must be broken away. In doing so, it is indicated that a field modification has been done. This is done only in

rare applications, when the circuit breaker should be in ON always, such as to avoid the unwanted stopping of power supply to a machine which has to undergo some continuous operation. This one time field modification of the locking mechanism 20 from an OFF locking device to an ON locking device provides benefits to both the customer and to the manufacturer. From a customer's perspective, the installer of the locking mechanism cannot lock a breaker in an ON or OFF condition without knowing exactly what is intended for the circuit breaker in a particular application.

The circuit breaker will be locked in an OFF condition unless the insert portion is broken off, in which case the circuit breaker can only be locked in an ON condition.

In addition, because it is much more likely that the circuit breaker will be locked in an OFF condition, someone would have to purposely redesign the locking mechanism for converting it to a locking device for locking a circuit breaker in an ON condition.

From a manufacturer's perspective, once the customer decides to convert the locking mechanism to an ON-use and then uses it to lock the circuit breaker in an ON condition, if an accident occurs during the breaker locked in an ON condition, then the customer cannot claim that he has only locked in an OFF condition but the accident has occurred due to breaker malfunctioning. The broken piece of the one- time converted locking system will tell that it has been used for ON condition locking only.

A circuit breaker 10 may include a"push to trip"button 100 adjacent the elongated slot 14. When the circuit breaker handle 12 is to be locked into the ON position with the locking mechanism 20 of the present invention, there is preferably a means to prevent this"push to trip"button 100 from being pressed, since pushing such a button 100 would defeat the purpose of having the circuit breaker handle 12 locked into an ON position. To accomplish this prevention, an extension 102, such as a generally planar, elongated flange extending substantially parallel to a top surface of the circuit breaker molded frame and from the bottom end 36 of the first squeezable side 32 adjacent the second connecting side 46 of the first part 30. This flange 102, or extension, is adapted to overlie the trip push button 100 thus preventing someone from tripping the circuit breaker to an OFF condition when the first part 30 of the locking mechanism 20 is in place within the elongated handle slot 14. Thus, with the

locking mechanism 20 in place, the flange 102 shown in Fig. 5 covers the"push to trip"button 100 for preventing the circuit breaker 10 from reverting to an OFF condition.

As described above with respect to the locking mechanism 20 used with the circuit breaker handle 12 in the OFF position, the locking mechanism 20 may be placed within the elongated slot 14 of the circuit breaker 10 as shown in Fig. 5 to secure the circuit breaker handle 12 in the ON position. To do so, the first part 30 of the locking mechanism 20 is pushed within the elongated slot 14. The snap profile 48 at the base again secures the first part 30 within the elongated slot 14. The first part 30 may be removed by squeezing the opposing sides 32,38 together to release the snap profile 48 from the slot 14. To prevent the first part 30 from being removed, a second part 60 may be inserted between the opposing sides 32,38 thus preventing the opposing sides 32,38 from being squeezed together.

The second part 60 may be padlocked to the first part 30 through gaps 104 shown in Fig. 6 to prevent removal of the locking mechanism 20 from the elongated slot 14, thereby ensuring that the circuit breaker handle 12 is locked into the ON position shown in Fig. 5. The gaps 104 are created by projections 78,76 in the second part top surface 74 and the handle 52 of the first part 30, to prevent the second part 60 from being removed from the first part 30, and thereby insuring that the circuit breaker handle 12 is locked into place until the padlocks (not shown), second part 60 and first part 30 are all removed. The gaps 104 can be suitably spaced for helping to keep the padlocks separated from one another. It is also within the scope of this invention to enable an authorized user to remove the padlocks and remove the second part 60 from the first part 30 to be able to remove the first part 30 from the elongated slot 14 to thus be able to once again move the circuit breaker handle 12 from one side to another of the elongated slot 14.

Although snap fit securements have been described with respect to the first part 30, second part 60, and insert portion 90, it would be within the scope of this invention to provide other fastening means to secure the elements of the locking mechanism 20 to each other or to the circuit breaker elongated slot 14. Also, although

a detailed embodiment is shown in the attached drawings, it would be within the scope of this invention to design a similar locking mechanism for different circuit breakers. The locking mechanism 20 of the present invention is preferably molded in plastic, but other suitable materials are within the scope of this invention.

The locking arrangement described herein is convertible so that it may be used for locking the circuit breaker handle 12 in either the"OFF"position or in the "ON"position. The conversion of the locking arrangement is simple, and able to be completed by field personnel. Once the locking mechanism is converted for locking a circuit breaker in an"ON"position, it cannot be converted back to a locking mechanism for locking the circuit breaker in an"OFF"position. In either condition, the locking mechanism may be padlocked for irremovability by unauthorized personnel.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the overall inventive concepts described herein.