Disclosed is a terrace canopy constructed from a support pillar provided with a cavity for discharging precipitation incident on the terrace canopy towards a ground surface and at least two beams, each of which provided with a gutter for discharging precipitation incident on the terrace canopy to an end face of the beam. A headboard is attached to the end face of the beams. A corner connection element is fixedly attached to the support pillar and to the headboards. The corner connection element is provided with one, or preferably, a plurality of support legs extending towards the support pillar.

Disclosed is a terrace canopy constructed from a support pillarprovided with a cavity for discharging precipitation incident on the terrace canopy towards a ground surface and at least two beams , each of which provided with a gutter for discharging precipitation incident on the terrace canopy to an end face of the beam. A headboard is attached to the end face of the beams. A corner connection elementis fixedly attached to the support pillar and to the headboards. The corner connection element is provided with one, or preferably, a plurality of support legs extending towards the support pillar.

Disclosed is a terrace canopy constructed from a support pillar provided with a cavity for discharging precipitation incident on the terrace canopy towards a ground surface and at least two beams, each of which provided with a gutter for discharging precipitation incident on the terrace canopy to an end face of the beam. A headboard is attached to the end face of the beams. A corner connection element is fixedly attached to the support pillar and to the headboards. The corner connection element is provided with one, or preferably, a plurality of support legs extending towards the support pillar.

Disclosed is a terrace canopy constructed from a support pillarprovided with a cavity for discharging precipitation incident on the terrace canopy towards a ground surface and at least two beams , each of which provided with a gutter for discharging precipitation incident on the terrace canopy to an end face of the beam. A headboard is attached to the end face of the beams. A corner connection elementis fixedly attached to the support pillar and to the headboards. The corner connection element is provided with one, or preferably, a plurality of support legs extending towards the support pillar.

A system and method for fabricating canopies featuring extruded members coupled together with fasteners that are hidden and are retained by multiple tracks located in the extruded members. Prefabricated corners of extruded members allow fabricators to build the canopy on site by attaching straight members to form a canopy from the four prefabricated corners. Prefabricated facial members allow fabricators to quickly change the appearance of the assembled canopy or to retrofit pre-existing canopies.

A solar panel awning device may include a solar panel having first and second opposing ends, first and second opposing sides extending between the first and second opposing ends, and first and second opposing major surfaces. The first major opposing surface defines a photovoltaic surface. The solar panel awning device may include first and second arms respectively coupled to the first and second opposing ends of the solar panel, and an actuator coupled to one of the first and second arms and configured to switch the solar panel between an extended position and a retracted position. In the retracted position, the solar panel is flat against a side of a building; in the extended position, the first opposing side is proximal to the side of the building and spaced apart from the side of the building; and the second opposing side is distal to the side of the building.

A parasol includes a pole of a tension rod-type between a ceiling surface and a floor surface of a building, a lower hub penetrated by the pole and moves in the vertical direction along the pole, an upper hub fixed to a predetermined position of the pole, ribs joined to the upper hub, struts provided with respect to each rib and connecting the ribs and the lower hub, a handle operation unit for moving the lower hub along the pole, and a sheet between the ribs. The pole is divided into an outer pipe, a ceiling pipe attached to an upper side of the outer pipe, and a lower side pipe attached to a lower side of the outer pipe. The length of the pole in the vertical direction is adjustable while the position of the sheet is maintained at a height within a certain range from the floor surface.

An adjustable support for a panel is provided to allow control of the height and the tilt angle of the panel. The support includes a hollow cylindrical base having an outer diameter D.sub.1; a first hollow piston having an outer diameter D.sub.2 threadably engaged with the base; a second hollow piston having an outer diameter D.sub.3 threadably engaged with the first piston; a third piston having an outer diameter D.sub.4 threadably engaged with the second piston, such that D.sub.1>D.sub.2>D.sub.3>D.sub.4. A ball pod extends from the third piston and accommodates a ball attached to the panel. One or more stepper motors are provided, where each stepper motor is coupled to a bottom portion of a respective piston, and a rotor of each stepper motor is configured to rotate the corresponding piston, thereby causing the piston to move along a longitudinal axis of the support.

A structural post includes a base plate defining a plurality of through holes, and a post portion that includes at least a pair of internal walls and at least a pair of external walls. A connector block is configured to receive a locking screw and to engage with a bolt thread of a bolt. A lock plate has a plate thread that is configured to engage the screw thread of the locking screw, and the lock plate is configured to expand upon being drawn by the locking screw into tight engagement with the connector block. The expanded lock plate is configured to apply a force on one of the pair of internal walls and one of the pair of external walls.

A multifunctional design housing is disclosed. In some examples, the multifunctional design housing includes an outer case with a back wall, a first side wall, and a second side wall. The back wall includes a first back wall edge and a second back wall edge. The first side wall extends forward from the first back wall edge, and the second side wall extends forward from the second back wall edge. The front wall includes a first side wall front edge and a second side wall front edge. A front opening is formed between the first side wall front edge and the second side wall front edge providing access to an interior volume within the outer case. A conduit control arm with a support element is spaced forward from the back wall and coupled to the outer case by a spacing element.

A system for retaining a position of an architectural fin relative to a structure. The fin is generally planar and defines an edge. The system includes a first mounting bracket configured to retain the architectural fin. The first mounting bracket comprises a first element having laterally opposed surfaces configured to receive the architectural fin therebetween and to apply a compression force to the laterally opposed surfaces of the architectural fin. A second element connected to the first element so that the first element is rotatable relative to the second element about an axis of rotation of the first mounting bracket. The second element has a base for fixing the first mounting bracket relative to the structure. The first mounting bracket is configured to enable rotation of the architectural fin relative to the structure about the axis of rotation of the first mounting bracket.

A system for retaining a position of an architectural fin relative to a structure. The fin is generally planar and defines an edge. The system includes a first mounting bracket configured to retain the architectural fin. The first mounting bracket comprises a first element having laterally opposed surfaces configured to receive the architectural fin therebetween and to apply a compression force to the laterally opposed surfaces of the architectural fin. A second element connected to the first element so that the first element is rotatable relative to the second element about an axis of rotation of the first mounting bracket. The second element has a base for fixing the first mounting bracket relative to the structure. The first mounting bracket is configured to enable rotation of the architectural fin relative to the structure about the axis of rotation of the first mounting bracket.