The invention relates to a switch cabinet comprising a square rack consisting of four vertical profiles and eight horizontal profiles, wherein four of the profiles form the rectangular profile frame and two of the four profiles forming the profile frame and extending in parallel to one another each include a first fastening profile side having a first row of fastening mounts spaced apart from one another while maintaining a constant grid dimension, wherein the first fastening profile sides are situated in a common plane and mounted on these two first fastening profile sides is a first interior structural component extending between the parallel profiles, which includes a mounting side having a second row of fastening mounts, which extend perpendicularly to the first row, wherein the second row of fastening mounts is arranged in the direction of extension of the first row of fastening mounts while maintaining the grid dimension of the first row of fastening mounts.

The present application provides a power supply cabinet, comprising a first power supply region and a second power supply region including at least one slot for receiving a first power supply module and a second power supply module respectively, a mode switching unit for outputting a mode signal to the first power supply module and the second power supply module, and a position setting unit for outputting a position signal to the first power supply module and the second power supply module. Input sides of the first power supply module and the second power supply mode are electrically connected to a first power supply and a second power supply. The power supply cabinet selectively operates in a first power supply mode (e.g. N+N mode) or a second power supply mode (e.g. N+1 mode) depending on the mode signal or types of the power supplies.

The present application provides a power supply cabinet, comprising a first power supply region and a second power supply region including at least one slot for receiving a first power supply module and a second power supply module respectively, a mode switching unit for outputting a mode signal to the first power supply module and the second power supply module, and a position setting unit for outputting a position signal to the first power supply module and the second power supply module. Input sides of the first power supply module and the second power supply mode are electrically connected to a first power supply and a second power supply. The power supply cabinet selectively operates in a first power supply mode (e.g. N+N mode) or a second power supply mode (e.g. N+1 mode) depending on the mode signal or types of the power supplies.

A cable manager includes one or more cable manager units. Each cable manager unit includes a pair of side cable guides, each comprised of a plurality of finger-like projections extending forwardly from a support column. At least one of the pair of support columns has a socket arranged at a side thereof. Each cable manager unit further includes a separate midsection member capable of insertion into the socket for interconnecting the pair of side cable guides.

A cable manager includes one or more cable manager units. Each cable manager unit includes a pair of side cable guides, each comprised of a plurality of finger-like projections extending forwardly from a support column. At least one of the pair of support columns has a socket arranged at a side thereof. Each cable manager unit further includes a separate midsection member capable of insertion into the socket for interconnecting the pair of side cable guides.

An apparatus for distributing power from a power source to a set of power outputs using a power distribution rack includes a manifold having a set of bus bar channels in a wall, a set of electronic cards, and a set of bus bars received in the set of bus bar channels and coupling a power source to the electronic cards, wherein the electronic cards route the power from the power source to the power outputs.

An apparatus for distributing power from a power source to a set of power outputs using a power distribution rack includes a manifold having a set of bus bar channels in a wall, a set of electronic cards, and a set of bus bars received in the set of bus bar channels and coupling a power source to the electronic cards, wherein the electronic cards route the power from the power source to the power outputs.

A rack having scalability and compatibility may be configured to reversibly adjusted to be reversibly configured to support various computerized equipment having various sizes and power supply schemes without adjusting an outer volume boundary of the rack and without replacement of the rack. The rack may include a main frame and an additional frame. The main frame may structurally support computerized equipment having a particular dimension that is a first size within an enclosure that is a first enclosure at least partially defined by the main frame. The additional frame may reversibly couple with the main frame to adjust the enclosure to be a second enclosure at least partially defined by the at least one additional frame to reversibly configure the main frame to store computerized equipment having the particular dimension that is a second size that is different from the first size.

A rack having scalability and compatibility may be configured to reversibly adjusted to be reversibly configured to support various computerized equipment having various sizes and power supply schemes without adjusting an outer volume boundary of the rack and without replacement of the rack. The rack may include a main frame and an additional frame. The main frame may structurally support computerized equipment having a particular dimension that is a first size within an enclosure that is a first enclosure at least partially defined by the main frame. The additional frame may reversibly couple with the main frame to adjust the enclosure to be a second enclosure at least partially defined by the at least one additional frame to reversibly configure the main frame to store computerized equipment having the particular dimension that is a second size that is different from the first size.

The present invention relates to a container for an energy storage apparatus, the container including: a container main body which defines an internal space finished by an upper plate, a lower plate, and a plurality of sidewalls; a first support frame which is installed on the upper plate of the container main body; a second support frame which is installed on the lower plate of the container main body; and one or more vertical frames which are coupled to the first and second support frames in a vertical direction, and configure vertical frames for a typically used battery rack.