Flexible drip cap for use with fenestration units and related methods. The flexible drip cap includes a flange member and a cap member attached to each other along a length of the drip cap, with a seal member located between the flange member and the cap member. The seal member provides a seal to limit water infiltration between the flange member and the cap member when the drip cap is positioned on a fenestration unit.

The present invention is directed towards a window sill flashing comprising a base having a substantially rectangular shape. A front flange projects perpendicularly downward from a front edge of the base and at least one side flange extends vertically from a side edge of the base. The side flange includes a front surface. The window sill flashing is made from a rigid homopolymer vinyl film.

The present invention is directed towards a window sill flashing comprising a base having a substantially rectangular shape. A front flange projects perpendicularly downward from a front edge of the base and at least one side flange extends vertically from a side edge of the base. The side flange includes a front surface. The window sill flashing is made from a rigid homopolymer vinyl film.

A water evacuation system includes a sill providing a dam that defines one or more drain ports, an accumulation chamber defined within the interior of the sill and in fluid communication with the dam via the one or more drain ports, and one or more discharge ports defined in a front face of the sill and in fluid communication with the accumulation chamber. An internal ramp is arranged within the accumulation chamber and includes an angled upper surface directed toward the one or more discharge ports to urge water to the discharge ports. Alternatively, or in addition thereto, a pump is in fluid communication with the sill and a float switch is secured to the sill to send a signal to operate the pump when water accumulating in the sill reaches a predetermined level for evacuation.

A water evacuation system includes a sill providing a dam that defines one or more drain ports, an accumulation chamber defined within the interior of the sill and in fluid communication with the dam via the one or more drain ports, and one or more discharge ports defined in a front face of the sill and in fluid communication with the accumulation chamber. An internal ramp is arranged within the accumulation chamber and includes an angled upper surface directed toward the one or more discharge ports to urge water to the discharge ports. Alternatively, or in addition thereto, a pump is in fluid communication with the sill and a float switch is secured to the sill to send a signal to operate the pump when water accumulating in the sill reaches a predetermined level for evacuation.

The present disclosure relates to a draft stopper for a sliding door system. The draft stopper including a longitudinally extending body having a front end, a rear end, a top, and a bottom with a longitudinally extending flap portion hingedly attached to the top of the body. The longitudinally extending flap portion is configured to substantially fill a recess of the sliding door system in an engaged position and abut at least one door of the sliding door system preventing drafting air from entering a structure.

The present invention relates to blood-free-diets for malaria mosquito vectors that support ovarian development, egg maturation and fertility, as well as low progeny larval mortality, and normal development of offspring into adult mosquitoes.

The formulated diets comprise supplements of physiological concentrations of several different human GPCR ligands and shown to be an effective artificial meal, free of blood that mimics a vertebrate blood meal and represents an important advance for the sustainability of Anopheles mosquito rearing in captivity.

The present invention is in the domain of genetic engineering, parasitology, entomology medicine, pharmaceuticals and diagnose.

A drapery-holding, light-blocking air deflector is provided comprising an elongated deflector housing having an internal space. A rod is mounted for rotation within the internal space of the deflector housing. Multiple retaining radial protrusions (e.g., radially extending flaps) are mounted on the rod. The rod can be rotated in the internal space of the deflector housing to orient the retaining radial protrusions at multiple positions or angles and retain a curtain or other suspended light-blocking or privacy item within the internal space. Thus, the air deflector prevents the curtains, panels or other suspended, light-blocking or privacy items from being blown forward by air from an AC unit and separating and unblocking light passing through a window into the room.

A drapery-holding, light-blocking air deflector is provided comprising an elongated deflector housing having an internal space. A rod is mounted for rotation within the internal space of the deflector housing. Multiple retaining radial protrusions (e.g., radially extending flaps) are mounted on the rod. The rod can be rotated in the internal space of the deflector housing to orient the retaining radial protrusions at multiple positions or angles and retain a curtain or other suspended light-blocking or privacy item within the internal space. Thus, the air deflector prevents the curtains, panels or other suspended, light-blocking or privacy items from being blown forward by air from an AC unit and separating and unblocking light passing through a window into the room.

Sliding fenestration systems that compensate for changes in opening height after installation and methods of installing such sliding fenestration systems are described herein. The head track of a sliding fenestration system moves vertically relative to the bottom of the building opening to compensate for changes in building opening height while still maintaining lateral support for the panels in the sliding fenestration system by virtue of a direct connection between the head track and the top of the building opening.