Sealed battery fuse module with energy dissipating cap

The invention claimed is: 1. A fuse module comprising: a mounting block having a through-hole extending therethrough; a fuse comprising: an upper portion disposed on a top of the mounting block and having a through-hole aligned with the through-hole of the mounting block; a lower portion disposed on a bottom of the mounting block and having a through-hole aligned with the through-hole of the mounting block; and a fusible element disposed adjacent a sidewall of the mounting block and connecting the upper portion of the fuse to the lower portion of the fuse; and a housing comprising: a main body portion encasing the mounting block and the fuse, the main body portion having apertures in top and bottom surfaces thereof that are aligned with the through-hole of the mounting block and that expose underlying surfaces of the upper and lower portions of the fuse; and a cap portion connected to the main body portion and disposed over the fusible element, the cap portion having surface features extending from an interior surface thereof for absorbing energy upon occurrence of an overcurrent condition in the fuse, wherein the surface features include frustoconical protrusions having ridges formed on sidewalls thereof. 2. The fuse module of claim 1 , wherein the main body portion includes an annular lip extending from the bottom surface thereof, the annular lip surrounding the aperture in the bottom surface of the main body portion. 3. The fuse module of claim 1 , further comprising an electrically conductive ring disposed within the aperture in the top surface of the main body portion and seated on the upper portion of the fuse. 4. The fuse module of claim 3 , wherein the conductive ring protrudes from the aperture in the top surface of the main body portion and extends above the top surface of the main body portion. 5. The fuse module of claim 1 , wherein the cap portion forms a fluid-tight seal with the main body portion. 6. The fuse module of claim 1 , wherein the mounting block includes a cover disposed over the fusible element, immediately adjacent the cap portion. 7. The fuse module of claim 1 , wherein the housing is formed of an electrically insulating, resilient material. 8. A protected circuit arrangement comprising: a fuse module connected electrically in series between a battery and a ring terminal of a conductor, the fuse module comprising: a mounting block having a through-hole extending therethrough; a fuse comprising: an upper portion disposed on a top of the mounting block and having a through-hole aligned with the through-hole of the mounting block; a lower portion disposed on a bottom of the mounting block and having a through-hole aligned with the through-hole of the mounting block; and a fusible element disposed adjacent a sidewall of the mounting block and connecting the upper portion of the fuse to the lower portion of the fuse; and a housing comprising: a main body portion encasing the mounting block and the fuse, the main body portion having apertures in top and bottom surfaces thereof that are aligned with the through-hole of the mounting block and that expose underlying surfaces of the upper and lower portions of the fuse; and a cap portion connected to the main body portion and disposed over the fusible element, the cap portion having surface features extending from an interior surface thereof for absorbing energy upon occurrence of an overcurrent condition in the fuse; an electrically insulating screw extending through the ring terminal and the fuse module and engaging a threaded terminal of the battery, whereby the electrically insulating screw secures the ring terminal, the fuse, and the battery terminal in electrical communication with one another; and an electrically conductive ring disposed within the aperture in the top surface of the main body portion and seated on the upper portion of the fuse, wherein the conductive ring extends through an aperture in an insulative coating of the ring terminal and engages a conductive portion of the ring terminal. 9. The protected circuit arrangement of claim 8 , further comprising an electrically insulating ring disposed between a metallic head of the electrically insulating screw and a conductive portion of the ring terminal for providing electrical insulating therebetween. 10. The protected circuit arrangement of claim 8 , wherein a resilient, electrically insulative coating of the ring terminal engages, and form a seal with, the top surface of the main body portion. 11. The protected circuit arrangement of claim 8 , wherein the battery terminal extends through the aperture in the bottom surface of the main body portion and engages the lower portion of the fuse. 12. The protected circuit arrangement of claim 8 , wherein the main body portion includes an annular lip extending from the bottom surface thereof, the annular lip surrounding the aperture in the bottom surface of the main body portion, wherein the annular lip engages, and forms a seal with, a top surface of the battery. 13. The protected circuit arrangement of claim 8 , wherein the cap portion forms a fluid-tight seal with the main body portion. 14. The protected circuit arrangement of claim 8 , wherein the surface features include one or more of ridges, protrusions, castellations, barriers, channels, and contours. 15. The protected circuit arrangement of claim 14 , wherein the surface features include frustoconical protrusions having ridges formed on sidewalls thereof. 16. The protected circuit arrangement of claim 8 , wherein the mounting block includes a cover disposed over the fusible element, immediately adjacent the cap portion. 17. The protected circuit arrangement of claim 8 , wherein the housing is formed of an electrically insulating, resilient material.