A temporary radiotherapy facility for use during renovation, upgrading, and/or modernization of an existing facility. The radiotherapy facility is integrated with radiation producing equipment and radiation shielding vaults. The structural elements and their arrangement enable compliance with applicable codes for this type of facility and provide an ability to maintain radiotherapy treatment continuity during equipment transition. The treatment room of the facility is constructed from a vault module comprising a freestanding outer frame assembly that is placed on the supporting foundation. The vault module includes a base frame adjustably mounted within the outer frame assembly for supporting the radiotherapy device and a plurality of adjustable supports for leveling the base frame independently from the outer frame assembly. The ability to level the base frame independently from the outer frame assembly allows fine adjustments to be made to the orientation of the equipment after some or all of the facility has been constructed.

In one embodiment of a tile and support structure, the tile and support structure may be configured to engage a tile such that the tile is oriented in a generally vertical plane. The support structure may include a riser tile engaged with both an upper riser support structure and a lower riser support structure.

A base pad includes a main body that has a top side and a bottom side. The top side is configured to receive a pier support. The base pad includes a plurality of ribs positioned on the bottom side of the main body. The base pad includes at least one aperture that is defined by the main body. The aperture passes through the top side to the bottom side of the main body. The aperture is configured to receive a fastener for securing the pier support to the top side of the main body.

Improved support systems, including seismic isolation platforms, tracks and flooring systems are disclosed for protecting a payload, for example, data center racks containing delicate computer equipment such as a hard disk drive, from damage due to vibrations such as seismic vibrations and the like. The systems are modular in design, and can be assembled and changed quickly, while being strong and robust enough to support heavy loads.

A panel for composing a floor covering or wall covering. A panel system including at least one panel. A method of composing a covering, in particular a floor covering, by using a panel system.

A panel for composing a floor covering or wall covering. A panel system including at least one panel. A method of composing a covering, in particular a floor covering, by using a panel system.

Improved support systems, including seismic isolation platforms, tracks and flooring systems are disclosed for protecting a payload, for example, data center racks containing delicate computer equipment such as a hard disk drive, from damage due to vibrations such as seismic vibrations and the like. The systems are modular in design, and can be assembled and changed quickly, while being strong and robust enough to support heavy loads.

The present disclosure provides a method, system, and fabrication facility that eliminates or substantially reduces process-limiting vibrations within a high-precision device manufacturing facility, wherein an elevated structure supports high-precision device manufacturing equipment and provides vibration reduction spacing between a floor and an upper surface of said elevated structure.

In one aspect of a tile and support structure, a support structure may be engaged with a top portion of a pedestal. The support structure may be formed with a generally vertical spine having at least one rail extending outward from a distal end thereof. The spine and rail(s) may be configured to secure one or more tiles, which tiles may be formed with a groove on at least one edge thereof, and wherein one or more rails may be positioned within the groove.

The present invention relates to visco-elastic inserts, in particular to shoe inserts, and in particular to heel supports having a main body with regions of dissimilar hardness.