A method for forming a sill pan is provided that includes the measurement of a width and length of an opening sill to be sealed. A piece of flexible sill pan material is cut based on the measured opening sill. Fold lines and cuts are created in the piece to form the sill pan. The resulting sill pan is readily formed to have at least one attribute of self-adherence, draining without shims, nail hole self-sealing, and provision of dams without resort to frame cutting.

A support that includes an exterior shell having a section configured to receive an item and a filler disposed within the exterior shell, wherein the filler is further configured to receive the item.

A support that includes an exterior shell having a section configured to receive an item and a filler disposed within the exterior shell, wherein the filler is further configured to receive the item.

The present disclosure relates to an electrified vehicle with a battery protection device and a corresponding method. An example electrified vehicle includes a battery protection device with a first housing portion and a second housing portion. The first and second housing portions are each made of a sandwich structure and exhibit U-shaped profiles. The U-shaped profiles of the first and second housing portions face one another to provide an internal cavity.

The present disclosure relates to an electrified vehicle with a battery protection device and a corresponding method. An example electrified vehicle includes a battery protection device with a first housing portion and a second housing portion. The first and second housing portions are each made of a sandwich structure and exhibit U-shaped profiles. The U-shaped profiles of the first and second housing portions face one another to provide an internal cavity.

An electronic device housing of the present invention is a housing for internally accommodating an electronic device and is provided with a metal bottom plate, and metal side plates folded and integrally connected to the bottom plate, in which, in a metal member (M) formed of at least the bottom plate and the side plate, a thermoplastic resin member is joined to a portion of the surface of the plate-shaped metal member (M), the metal member (M) is reinforced by a thermoplastic resin member, and the thermoplastic resin member is joined to both surfaces of the plate-shaped metal member (M).

An electronic device housing of the present invention is a housing for internally accommodating an electronic device and is provided with a metal bottom plate, and metal side plates folded and integrally connected to the bottom plate, in which, in a metal member (M) formed of at least the bottom plate and the side plate, a thermoplastic resin member is joined to a portion of the surface of the plate-shaped metal member (M), the metal member (M) is reinforced by a thermoplastic resin member, and the thermoplastic resin member is joined to both surfaces of the plate-shaped metal member (M).

A heat sink faces an exhaust port of a blower fan in use, and includes: a first plate-shaped portion; a second plate-shaped portion disposed in parallel with the first plate-shaped portion having a gap therebetween; a plurality of fins that stand up between the first plate-shaped portion and the second plate-shaped portion and are disposed side by side with a gap therebetween to define an air flow path between the fins, through which air flows from the exhaust port; and a protrusion that is disposed at a part of each fin including a center of the upright height, and protrudes into the air flow path.

A heat sink faces an exhaust port of a blower fan in use, and includes: a first plate-shaped portion; a second plate-shaped portion disposed in parallel with the first plate-shaped portion having a gap therebetween; a plurality of fins that stand up between the first plate-shaped portion and the second plate-shaped portion and are disposed side by side with a gap therebetween to define an air flow path between the fins, through which air flows from the exhaust port; and a protrusion that is disposed at a part of each fin including a center of the upright height, and protrudes into the air flow path.

A mounting bracket for supporting an electrical device includes a frame, a leg, and a support tab. The frame includes a rail and is configured to be secured to a structural support. The leg is connected to an edge of the rail and pivotable relative to the rail. The support tab is connected to the leg and configured to be coupled to the structural support.