Field
The present invention relates generally to fuses. More specifically, the present invention relates to fuses that include a hollow fuse body.
Description of Related Art
Fuses are used as circuit protection devices and form electrical connections between sources of electrical power and components in circuits that are to be protected. A particular fuse design includes an electrically insulating, hollow fuse body, a fusible element disposed within the hollow fuse body, and electrically conductive endcaps coupled to ends of the hollow fuse body in electrical connection with respective ends of the fusible element. Typically, electrical connections are established between the endcaps and the ends of the fusible element by trapping or crimping the ends of the fusible element between exterior surfaces of the fuse body and interior surfaces of the end caps. A small amount of solder may be disposed within the endcaps prior to fitting the endcaps on the ends of the fuse body for securing the endcaps to the ends of the fuse body and improving the electrical connections with the fusible element.
Due to the tight tolerance between the hollow body and the endcaps and, very little solder flows around the fusible element. Generally, fuse endcaps fit onto the ends of a fuse body in a close clearance relationship therewith, with very little space between the exterior surfaces of the fuse body and the interior surfaces of the end caps. Thus, during assembly of the fuse, there may not be sufficient room between the endcaps and the fuse body to allow solder to reflow and achieve a consistent and reliable connection with the fusible element. It is with respect to these and other considerations that the present improvements may be useful.
Hollow bodies and hollow body fuses are disclosed. Furthermore, methods to provide hollow bodies and hollow body fuses are disclosed. In one implementation, a hollow body includes a center portion and an end portion. An endcap may be coupled to the end portion. A cavity is formed between an inside surface of the endcap and an outer periphery of the end portion. A fusible element may be disposed within the hollow body, and may further be disposed within the cavity formed between the inside surface of the endcap and the outer periphery of the end portion, the fusible element extending along a substantially diagonal path through a center of the cavity. Solder may fill the cavity and surround the fusible element to create a resilient and durable solder connection to the fusible element.
Solder 316 may be disposed within each of the endcaps 308 and 312. Furthermore, as will be described in further detail below, the solder 316 may be disposed along a periphery of the hollow body 306. The fuse 300 further includes a fusible element 318, such as wire. The fusible element 318 may be disposed within the hollow body 306. Furthermore, the fusible element 318 may extend along a bottom portion 320 of the first end 310. The fusible element 318 may also extend along a top portion 322 of the second end 314.
The hollow body 306 includes a central portion 324. The central portion 324 has an outer cross-sectional profile of a first size. The hollow body 306 also includes a first end portion 326 that terminates at the first end 310. The first end portion 326 has an outer cross-sectional profile of a second size, where the second size is less than the first size. Therefore, the first end portion 326 is narrower than the central portion 324. In other words, depending on a shape of the hollow body 306, an area, perimeter, diameter, circumference, or the like associated with the first size is greater than an area, perimeter, diameter, circumference, or the like associated with the second size. The hollow body 306 also includes a second end portion 328 that terminates at the second end 314. The second end portion 328 has an outer cross-sectional profile of a second size, where the second size is less than the first size. Therefore, the second end portion 328 is narrower than the central portion 324. In other words, an area, perimeter, diameter, circumference, or the like associated with the first size is greater than the area, perimeter, diameter or circumference associated with the second size.
The central portion 324 of the hollow body 306 integrally couples to the first end portion 326 at a shoulder 330 that extends inwardly to join to the first end portion 326. Similarly, the central portion 324 of the hollow body 306 integrally couples to the second end portion 328 at a shoulder 331 that extends inwardly to join to the second end portion 328.
The fusible element 318 extends through a cavity 332 that is defined between an outer periphery of the first end portion 326 and an inside surface of the first endcap 308. The fusible element 318 extends along a substantially diagonal path through a center of the cavity 332 and terminates at an end 335 that is sandwiched between an inside surface of the first endcap 208 and an outer periphery of the central portion 324. The cavity 332 enables the solder 316 to completely surround at least a portion of the fusible element 318 disposed within the cavity 332.
Similarly, the fusible element 318 is disposed within a cavity 337 that is defined between an outer periphery of the second end portion 328 and an inside surface of the second endcap 312. The fusible element 318 extends along a substantially diagonal path through a center of the cavity 337 and terminates at an end 339 that is sandwiched between an inside surface of the second endcap 312 and an outer periphery of the central portion 324. The cavity 337 enables the solder 316 to completely surround at least a portion of the fusible element 318 disposed within the cavity 337.
In one embodiment, the fusible element 318 does not come into direct contact with an outer periphery of the first end portion 326. That is, the fusible element 318 is offset from the outer periphery of the first and portion 326. Furthermore, in one embodiment, the fusible element 318 does not come into direct contact with an outer periphery of the second end portion 328. That is, the fusible element 318 is offset from an outer periphery of the second and portion 328. Rather, the solder 316 is disposed between the fusible element 318 and an outer periphery of the first end portion 326, and the 316 is disposed between the fusible element 318 and an outer periphery of the second end portion 328.
The hollow body 700 illustrated in
The hollow body 800 illustrated in
The hollow body 900 may include a layer of metallization 908 on each of the first end portion 904 and second end portion 906. Solder (not shown) may come in contact with the layer of metallization 908 when an endcap (e.g., endcap 400) is pressed onto an end portion (e.g., first end portion 904) of the hollow body 900. Thus, since the layer of metallization 908 is in contact with the solder and with portions of the fusible element 910 (as shown in
Each of the first end portion 1004 and second end portion 1006 may have a generally concave or curved shape 1008. In one implementation, the generally concave or curved shape 1008 of each of the first and portion 1004 and the second and portion 1006 allows for the elimination of the shoulders 330 described above with regard to the fuse 300 (see
While hollow body fuses and a method for manufacturing structurally hollow body fuses have been described with reference to certain embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the claims of the application. Other modifications may be made to adapt a particular situation or material to the teachings disclosed above without departing from the scope of the claims. Therefore, the claims should not be construed as being limited to any one of the particular embodiments disclosed, but to any embodiments that fall within the scope of the claims.
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