Abstract: The present invention comprises a modular battery tray comprising a series of battery modular trays attached together, each tray comprising a back section and opposing side sections configured to provide access between the opposing side sections, at least one of the sections having battery compartments in which the battery is restrained from movement, as desired. In the preferred embodiment, a top cover and a front access door are included, as is a base so as to provide a battery cabinet assembly that may be readily moved and which restricts access.

Abstract: A cell rack assembly is disclosed which is capable of storing a plurality of cells such as large size sealed lead-acid cells having one terminal on one end and the other terminal on the other end, wherein a plurality of cell-receiving modules are generally detachably attached together. Each cell-receiving module has a top plate, a bottom plate and upstanding support members connecting the top and bottom plates and defining side-by-side cell-receiving areas and a central access area therebetween. The cells are stacked with the terminals facing the end of the modules and are held in position by a set of cell covers that retain the sides of the stacked cells. The modules may be sized to accept one or more sets of stacked cells, as desired for the particular application. In its more specific embodiment, a cap assembly, a base support, and safety panels are all employed with the stacked cell-receiving modules.