A unique adjustable guttering anti-warping anti-sagging safety-truss gate comprises corner gutters to drain rain water, body gutters to drain rain water, extension tubes having multiple built-in tunnel systems to drain rain water, struts having multiple built-in tunnel systems to drain rain water, and vertical tubes having multiple built-in draining-hole systems to drain rain water down to the ground. Further, the unique gate comprises multiple ridge systems built into the extension tubes to strengthen the unique gate, and multiple spring systems built into the vertical tubes to strengthen the unique gate and to absorb impact forces, warping forces, twisting forces, and sagging forces exerted on the unique gate during its lifespan. The corner gutters, body gutters, and vertical tubes are welded to one another to create the frame of the unique gate. The extension tubes are inserted into the body gutters, and the struts are screwed in the corner gutters and on the extension tubes to define the width of the unique gate.

A unique adjustable guttering anti-warping anti-sagging safety-truss gate comprises corner gutters to drain rain water, body gutters to drain rain water, extension tubes having multiple built-in tunnel systems to drain rain water, struts having multiple built-in tunnel systems to drain rain water, and vertical tubes having multiple built-in draining-hole systems to drain rain water down to the ground. Further, the unique gate comprises multiple ridge systems built into the extension tubes to strengthen the unique gate, and multiple spring systems built into the vertical tubes to strengthen the unique gate and to absorb impact forces, warping forces, twisting forces, and sagging forces exerted on the unique gate during its lifespan. The corner gutters, body gutters, and vertical tubes are welded to one another to create the frame of the unique gate. The extension tubes are inserted into the body gutters, and the struts are screwed in the corner gutters and on the extension tubes to define the width of the unique gate.

A refrigerated sales cabinet (20a) includes a cabinet body (22a) providing a refrigerated sales space for supporting refrigerated goods to be presented therein; a door frame (21a) having a top post (34a), a bottom post (36a), and at least two upright posts (32a); wherein at least one of the posts (32a, 34a, 36a) comprises an air duct allowing to conduct air through the post (32a, 34a, 36a), and wherein at least one fan (18) is fluidly connected to the air duct in order to convey ambient air through the air duct.

A refrigerated sales cabinet (20a) includes a cabinet body (22a) providing a refrigerated sales space for supporting refrigerated goods to be presented therein; a door frame (21a) having a top post (34a), a bottom post (36a), and at least two upright posts (32a); wherein at least one of the posts (32a, 34a, 36a) comprises an air duct allowing to conduct air through the post (32a, 34a, 36a), and wherein at least one fan (18) is fluidly connected to the air duct in order to convey ambient air through the air duct.

A expandable fenestration flashing product for an opening in an exterior surface of a structure includes a generally planar unitary flashing shaped to conform to the exterior surface, the flashing configured to extend outwardly from an entire perimeter of fenestration, and an inner portion configured to flexibly seal to the inner surface of the fenestrations. The expandable fenestration flashing product is formed as a unitary structure of a waterproof, expandable material. A method of integrating an expandable fenestration flashing product into an opening of an exterior surface of a structure includes securing the expandable fenestration flashing product described above onto the exterior of a structure about the fenestration, and pressing and securing the fenestration product at least partially into the fenestration.

A expandable fenestration flashing product for an opening in an exterior surface of a structure includes a generally planar unitary flashing shaped to conform to the exterior surface, the flashing configured to extend outwardly from an entire perimeter of fenestration, and an inner portion configured to flexibly seal to the inner surface of the fenestrations. The expandable fenestration flashing product is formed as a unitary structure of a waterproof, expandable material. A method of integrating an expandable fenestration flashing product into an opening of an exterior surface of a structure includes securing the expandable fenestration flashing product described above onto the exterior of a structure about the fenestration, and pressing and securing the fenestration product at least partially into the fenestration.

A flashing product is manufactured by creating a reinforcing member having a flange shaped to conform to the exterior surface. The flange may extend outwardly from an entire perimeter of an aperture in the reinforcing member. The flange may have top, bottom, and side flange members. The reinforcing member may include a return having top, bottom and side return members connected respectively to the top, bottom and side flange members. The return may extend substantially perpendicularly from the flange to conform to an inward direction of an opening where the flashing product is applied. The reinforcing member may be coated with a waterproof material thereby forming a waterproof flashing product.

A flashing product is manufactured by creating a reinforcing member having a flange shaped to conform to the exterior surface. The flange may extend outwardly from an entire perimeter of an aperture in the reinforcing member. The flange may have top, bottom, and side flange members. The reinforcing member may include a return having top, bottom and side return members connected respectively to the top, bottom and side flange members. The return may extend substantially perpendicularly from the flange to conform to an inward direction of an opening where the flashing product is applied. The reinforcing member may be coated with a waterproof material thereby forming a waterproof flashing product.

In an extruded window frame, engineered foam patches are attached to the window frame for delivery to the job site. In combination with a sealant bead that is applied at the job site to the perimeter of the nail fin on the window frame, the foam patches serve as weep holes. Moisture reaching the interior of the rough framed opening of the building after installation of the windows is channeled between the sealant bead and the inside of the window frame. The foam patches, applied as a spaced-apart pair to the inside surface of the nail fin are in physical contact with the sealant bead to receive channeled rainwater, which can flow by gravity to the bottom of the window frame and exit the window. The foam patches block entry of insects.

In an extruded window frame, engineered foam patches are attached to the window frame for delivery to the job site. In combination with a sealant bead that is applied at the job site to the perimeter of the nail fin on the window frame, the foam patches serve as weep holes. Moisture reaching the interior of the rough framed opening of the building after installation of the windows is channeled between the sealant bead and the inside of the window frame. The foam patches, applied as a spaced-apart pair to the inside surface of the nail fin are in physical contact with the sealant bead to receive channeled rainwater, which can flow by gravity to the bottom of the window frame and exit the window. The foam patches block entry of insects.