An exemplary approach for protecting floorings in containers may utilize a first ledger attached to an upper portion of a first support beam associated with a foundational base assembly. A portion of the first ledger may protrude outward in a first horizontal direction from the upper portion of the first support beam. A second ledger may be attached to an upper portion of a second support beam next to the first support beam. A portion of the second ledger may protrude outward in a second horizontal direction from the upper portion of the second support beam. The second horizontal direction may face the first horizontal direction. A support panel may be placed on top of the portion of the first ledger and the portion of the second ledger. The support panel may have a length proximate to a distance between the first support beam and the second support beam.

An exemplary approach for protecting floorings in containers may utilize a first ledger attached to an upper portion of a first support beam associated with a foundational base assembly. A portion of the first ledger may protrude outward in a first horizontal direction from the upper portion of the first support beam. A second ledger may be attached to an upper portion of a second support beam next to the first support beam. A portion of the second ledger may protrude outward in a second horizontal direction from the upper portion of the second support beam. The second horizontal direction may face the first horizontal direction. A support panel may be placed on top of the portion of the first ledger and the portion of the second ledger. The support panel may have a length proximate to a distance between the first support beam and the second support beam.

A vehicle includes a battery module and an exhaust duct to discharge air from the battery module. A first side member is provided along a first side trim to provide a space between the first side member and the first side trim in a vehicle width direction. The space is connected to the battery module via the exhaust duct. A rear seat is provided in a vehicle interior. A first exhaust port is connected to the exhaust duct via the space and provided in the vehicle interior below the rear seat in a vehicle height direction. A second exhaust port is connected to the exhaust duct via the space and provided in the vehicle interior behind the rear seat in a front-rear direction. The air is discharged from the exhaust duct through the first exhaust port and the second exhaust port via the space.

An exemplary approach for protecting floorings in containers may utilize a first ledger attached to an upper portion of a first support beam associated with a foundational base assembly. A portion of the first ledger may protrude outward in a first horizontal direction from the upper portion of the first support beam. A second ledger may be attached to an upper portion of a second support beam next to the first support beam. A portion of the second ledger may protrude outward in a second horizontal direction from the upper portion of the second support beam. The second horizontal direction may face the first horizontal direction. A support panel may be placed on top of the portion of the first ledger and the portion of the second ledger. The support panel may have a length proximate to a distance between the first support beam and the second support beam.

A body panel for repairing damaged vehicle bodies including a layer assembly. The body panel makes use of a fibrous sheet that includes fiber glass, carbon fiber, or Kevlar that would be easily painted and installed to replace damaged vehicle bodies. The body panel makes great usage for repairing damaged body panels as it is strong and durable as it does not dent, it is lightweight, it is inexpensive, and it importantly does not rust.

A design for repair casting having a repairable ultra-large single-piece casting and a replacement part. The ultra-large single-piece casting includes a main body portion, at least one predefined replaceable portion integrally cast with the main body portion, and a cut-guide delineating the predefined replaceable portion from the main body portion. The cut-guide includes a continuous channel defined on an exterior surface of the single-piece casting. The cut-guide further includes a rib extending from a channel wall on the main body portion. A damaged replaceable portion is excisable from the main-body portion by cutting through the single-piece casting along the cut-guide. The excised damaged replaceable portion may be replaced with the replacement part, which has substantially the same geometry, dimensions, and mechanical properties as an undamaged replaceable portion. The replacement part may be joined to the main body portion by mechanical means or by welding.

A modular floor system with an integral utility for temporary installation in an unfinished aircraft fuselage to facilitate construction. The system includes multiple floor modules, each including a catch pan defining a pan volume, a grid top surface supported on the catch pan over the pan volume, and a utility manifold carrying a utility across the module and to the next module. The modules may be sized and shaped to conform to different installation locations within the vehicle body. The grid top surface is openable to access the pan volume to remove debris or items. Adjacent modules are coupled together with connectors. The utility may be vacuum, air, electricity, or water, and one manifold may carry air and another manifold may carry vacuum. A fixture may be connected to the vacuum manifold and receive an end of a drill so as to remove debris resulting from operation of the drill.

A vehicle shown herein is a side by side utility vehicle having a skid plate positioned beneath a frame, wherein at least a portion of an edge of the skid plate extends upward above a lowermost portion of the frame. The vehicle may further or alternatively include a brake and steering mount coupled to the frame, at least one tie down integrated into the frame, at least on deflection shield positioned between a radiator of the vehicle and a seating area of the vehicle, a floor having at least one channel, and/or a propeller shaft accessible through a console of the floor of the vehicle.

A modular floor system with an integral utility for temporary installation in an unfinished aircraft fuselage to facilitate construction. The system includes multiple floor modules, each including a catch pan defining a pan volume, a grid top surface supported on the catch pan over the pan volume, and a utility manifold carrying a utility across the module and to the next module. The modules may be sized and shaped to conform to different installation locations within the vehicle body. The grid top surface is openable to access the pan volume to remove debris or items. Adjacent modules are coupled together with connectors. The utility may be vacuum, air, electricity, or water, and one manifold may carry air and another manifold may carry vacuum. A fixture may be connected to the vacuum manifold and receive an end of a drill so as to remove debris resulting from operation of the drill.

An exemplary approach for protecting floorings in containers may utilize a first ledger attached to an upper portion of a first support beam associated with a foundational base assembly. A portion of the first ledger may protrude outward in a first horizontal direction from the upper portion of the first support beam. A second ledger may be attached to an upper portion of a second support beam next to the first support beam. A portion of the second ledger may protrude outward in a second horizontal direction from the upper portion of the second support beam. The second horizontal direction may face the first horizontal direction. A support panel may be placed on top of the portion of the first ledger and the portion of the second ledger. The support panel may have a length proximate to a distance between the first support beam and the second support beam.