Embodiments of the present invention relate in general to a system for installing and removing a fuse barrel component, and more particularly to a fuse barrel component handling device that engages and supports both load break and non-load break fuse barrel components.
Fuse barrels are typically positioned in electric circuits. A fuse barrel, which may be suspended from power lines by an upper support member and a lower support member, may include various types of components, e.g., a load break cutout, non-load break cutout, load break sectionalizer, and non-load break sectionalizer. A fuse barrel also may include an insulated fuse tube and a fuse link that allows current to flow through the barrel. When currents of normal levels are flowing through the electric circuit, the fuse link will be unaffected and the fuse barrel will remain in a cutout configuration. However, when a fault or an over-current occurs in the circuit, the fuse link will react, causing an interruption of the current in the circuit. As a result of the reaction of the fuse link, the “blown” fuse tube will be disengaged from the upper support member and will rotate downward into a “drop down” position, breaking the circuit. In the “drop down” position, the fuse link may be said to be in the sectionalizer configuration.
A number of tools and methods have been developed to remove these old or “blown” fuse barrels and to install new fuse barrels. In one such method, a utility worker may use a hook-shaped tool attached to a “hot stick,” or other suitable device, to engage the trunnion of the old fuse barrel. As used herein, a hot stick or “extendo stick” refers to a telescoping probe that extends from about 4-5 feet, for example, to about 35-40 feet, or any other suitable distance based on the particular application where the device is being used. These types of devices may allow a utility worker to remove and/or install a fuse barrel located on a distribution electrical line atop a utility pole. Once the trunnion of the fuse barrel is engaged, the hot stick may be maneuvered to allow the old fuse barrel to be lifted from the lower support member. The utility worker may then lower the old fuse barrel to the ground and remove the old fuse barrel from the hot stick. A trunnion of the replacement fuse barrel may be engaged by the hook on the hot stick, and the hot stick can be maneuvered to position the lower end of the new fuse barrel on the lower support member. The fuse barrel may then be rotated upward until the upper end is secured into the upper support member, closing the circuit.
It may be very difficult to control a fuse barrel on a hot stick while lifting the stick 20 or 30 feet, for example, in the air to reach the top of a utility pole. The success of the installation or removal may depend on balancing the fuse barrel or a component of the fuse barrel upon the hot stick or the hook-shaped tool attached to the hot stick. Because the engagement of the fuse barrel and the hook-shaped tool may be wobbly or insecure, the fuse barrel may slip off the hot stick and fall to the ground, possibly causing damage to the fuse barrel itself and/or injury to the utility worker or other persons in the area. Thus, it may be advantageous to install and/or remove a fuse barrel using a device that more securely engages the fuse barrel.
While the specification concludes with claims which particularly point out and distinctly claim the invention, it is believed the present invention will be better understood from the following description of certain examples taken in conjunction with the accompanying drawings. It is understood, however, that the described embodiments are not limited to the precise arrangements shown. In the drawings, like numerals represent like elements throughout the several views.
The following description of certain examples should not be used to limit the scope of the present invention. Other examples, features, aspects, embodiments, and advantages of the invention will become apparent to those skilled in the art from the following description, which is by way of illustration, one of the best modes contemplated for carrying out the invention. As will be realized, the invention is capable of other different and obvious aspects, all without departing from the invention. Accordingly, the drawings and descriptions should be regarded as illustrative in nature and not restrictive.
Versions of the present invention comprise a fuse barrel component handling device, which may be used to securely engage and support a fuse barrel. Such a fuse barrel component handling device may be attached to a hot stick to permit a utility worker to remove and/or install a fuse barrel. The fuse barrel component handling device may be used in conjunction with various types of fuse barrel components as will be apparent to one of ordinary skill in the art. For example, the fuse barrel component handling device may be used to install and/or remove a load break cutout, a non-load break cutout, a load break sectionalizer, and a non-load break sectionalizer.
Referring to
Attached to the upper end (20) of the insulator (19) is an upper contact assembly (27). The upper contact assembly (27) includes a support bar (28) that has a first segment (29) that is bent downward at about a 90° angle from a second segment (31). The first segment (29) of the support bar (28) includes two attachment hooks (32). The upper contact assembly (27) also includes an offset recoil bar (33) that has a first end (34) adjacent the insulator (19) and a second end (36). A bore (37) extends through the second end (36) of the recoil bar (33). The recoil bar (33) is attached to, and spaced apart from, the second segment (31) of the support bar (28) by a rivet (38).
Also included in the upper contact assembly (27) is a generally J-shaped spring contact (39). The spring contact (39) includes a long leg (41) and a short leg (42). Included on the end of the short leg (42) of the spring contact (39) is an indentation (43) that extends toward the long leg (41). A stud (44) extends through the bore (37) of the recoil bar (33) and is firmly attached between the legs (41)-(42) of the spring contact (39). The stud (44) is received in the indentation (43) formed in the short leg (42). Thus, although the spring contact (39) may flex, the legs (41)-(42), which are interconnected by the stud (44), are constrained to move in unison. Positioned between the second end (36) of the recoil bar (33) and a base of the indentation (43), is a spring (46) that sets a rest position for the legs (41)-(42) of the spring contact (39).
Non-load break cutout (14) also includes a fuse tube (51). The fuse tube (51) has an insulated body member (52). The fuse tube (51) includes an upper end (53) and a lower end (54). Attached to the lower end (54) of the fuse tube (51) is a cast component (56). A trunnion casting (57) is pivotally mounted at a toggle joint (58) to the cast component (56). Extending from the trunnion casting (57) are a pair of bosses (59). The bosses (59) are configured to be received by the pockets (26) in the lower support member (24). Thus, the lower end (54) of the fuse tube (51) can be supported by the lower contact assembly (23).
Mounted on the upper end (53) of the fuse tube (51) is a contact cap (61). The contact cap (61) is configured to fit into and be held by the indentation (43) formed in the short leg (42) of the spring contact (39). Extending from the upper end (53) of the fuse tube (51) is a pull ring (62). The upper end (53) of the fuse tube (51) is held, and latched against movement, by the upper contact assembly (27).
Referring to
In the illustrated version, handling device (100) also comprises at least a first slot (108) and a second slot (109). First slot (108) and second slot (109) are generally located at the first end (104) of body (102). In this example, first slot (108) and second slot (109) extend from the open first end (104) along a portion of the wall of body (102). As shown, second slot (109) comprises two edges (113, 115) that are approximately the same length, which may, for example be 2.0 inches. In this version, first slot (108) also comprises two edges (112, 114), but they are of two different lengths. By way of example only, the length of edge (112) may be 0.75 inches while the length of edge (114) may be 2.0 inches. In addition, although merely illustrative, the width of both first slot (108) and second slot (109) between their respective edges (112, 114, 113, 115) may be 0.3125inches. The edges (112, 114, 113, 115) of first slot (108) and second slot (109) may be beveled, and although in the present embodiment first slot (108) and second slot (109) are substantially rectangular in shape, they may take any other suitable shape as will be apparent to one of ordinary skill in the art. By way of example only, first slot (108) and second slot (109) may be substantially oval shaped, as shown in
In the illustrated embodiment, first slot (108) and second slot (109) are positioned substantially diametrically opposed to each other in body (102). In this way, first slot (108) and second slot (109) in body (102) may permit the device (100) to engage and support both load break and non-load break fuse barrel components. For example, the dual slot configuration of the illustrated version may permit a pull ring to be received and engaged within first slot (108) and second slot (109) as illustrated in
As shown in the figures, handling device (100) also comprises a notch (110). Notch (110) is a substantially U-shaped cutout having edges (118, 120) located at the first end (104) of body (102). In the present version, notch (110) extends from the open first end (104) and down through a portion of the wall of body (102). In particular, notch (110) may be in communication with first slot (108), accounting for the generally shorter length of edge (112) as compared to edge (114). Edges (118, 120) of notch (110) may be beveled to help guide a fuse barrel component into device (100). In addition, although merely illustrative, the length of edge (118) may be 1.0 inch and the length of edge (120) may be 1.25 inches. Edges (118, 120) may also be contoured to provide further stability when using the device (100) to install and/or remove a fuse barrel component.
Like first slot (108) and second slot (109), notch (110) may be sized and shaped to allow the device (100) to receive and support both load break and non-load break fuse barrel components. In particular, the U-shaped notch (110) may provide a seat upon which at least a portion of a fuse tube or a fuse barrel component, such as the hook portion or pull ring of a non-load break component, may rest while the fuse barrel is being installed and/or removed. For example, notch (110), in combination with first slot (108) and second slot (109) may receive a hook member from a load break or non-load break fuse barrel sectionalizer component as shown in
In the exemplary embodiment, handling device (100) also comprises a projection bar (116). Such a projection bar (116) may be located at the first end (104) of body (102). Bar (116) may be integral to the first end (104) or it may be attached to body (102) with any suitable fastener, such as a weld, bolt, screw, or adhesive, as will be apparent to one of ordinary skill in the art. If bar (116) is integral to body (102), device (100) may be manufactured, for example, via an injection molding process. Although merely illustrative and while other dimensions may be suitable, the length of projection bar (116) may be 2.25 inches. A bar (116) may be utilized to engage a fuse barrel component. For example, bar (116) may be inserted into a pull ring (62) to swing the component upward to close an interrupted circuit. In another example, bar (116) may be inserted into pull ring (62) to remove a fuse barrel component from a utility line.
In similar fashion, device (100) may be used to engage with a load break cutout, such as the load break cutout (206) depicted in
Referring to
In addition to receiving a fuse tube (51, 202, 212, 216) within the body (102) of device (100), a fuse tube, such as the fuse tube (230) shown in
It should be appreciated that any patent, publication, or other disclosure material, in whole or in part, that is said to be incorporated by reference herein is incorporated herein only to the extent that the incorporated material does not conflict with existing definitions, statements, or other disclosure material set forth in this disclosure. As such, and to the extent necessary, the disclosure as explicitly set forth herein supersedes any conflicting material incorporated herein by reference. Any material, or portion thereof, that is said to be incorporated by reference herein, but which conflicts with existing definitions, statements, or other disclosure material set forth herein will only be incorporated to the extent that no conflict arises between that incorporated material and the existing disclosure material.
Having shown and described various embodiments of the present invention, further adaptations of the methods and systems described herein may be accomplished by appropriate modifications by one of ordinary skill in the art without departing from the scope of the present invention. Several of such potential modifications have been mentioned, and others will be apparent to those skilled in the art. For instance, although
Number | Name | Date | Kind |
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2299838 | Mays | Oct 1942 | A |
2552015 | Quick | May 1951 | A |
4132441 | Watkins | Jan 1979 | A |
4244613 | Tillman | Jan 1981 | A |
6474197 | Browen et al. | Nov 2002 | B1 |
Number | Date | Country | |
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20110094342 A1 | Apr 2011 | US |