The present invention features an elegantly-mounted pinwheel comprising alternating holographic red and silver non-metallic tape-like material. The pinwheel uses connector bolts and hexagonal coupling nuts to be mounted or positioned directly onto various components of a power pole or utility pole system such as bushings, fuse cutouts, regulators, reclosures, lightning arresters, or underground primary dips. The invention will deter animals such as birds and squirrels from scaling or landing on the power pole or utility pole system when the invention is properly mounted. The invention takes advantage of the alternating colors of the pinwheel to scare the animals. The present invention requires no housing, rotors, drums, or support plates. The invention does not rely on sound, and it requires no electricity or motor. The stainless steel hex standoff coupling nut comes preferably in ⅜″ and can be ordered in different sizes to accommodate the device.

The present invention features an elegantly-mounted pinwheel comprising alternating holographic red and silver non-metallic tape-like material. The pinwheel uses connector bolts and hexagonal coupling nuts to be mounted or positioned directly onto various components of a power pole or utility pole system such as bushings, fuse cutouts, regulators, reclosures, lightning arresters, or underground primary dips. The invention will deter animals such as birds and squirrels from scaling or landing on the power pole or utility pole system when the invention is properly mounted. The invention takes advantage of the alternating colors of the pinwheel to scare the animals. The present invention requires no housing, rotors, drums, or support plates. The invention does not rely on sound, and it requires no electricity or motor. The stainless steel hex standoff coupling nut comes preferably in ⅜″ and can be ordered in different sizes to accommodate the device.

A training apparatus for fast-rope training includes a platform-supporting structure having one or more containers and at least one platform configured for use in fast-rope training. At least one attachment is provided for attaching a fast-rope. The platform-supporting structure is supportable by a surface. The at least one attachment is located higher than the platform and spaced laterally from the platform-supporting structure such that the at least one attachment overhangs the surface so a fast rope can hang from the at least one attachment, past the platform and toward the surface.

A training apparatus for fast-rope training includes a platform-supporting structure having one or more containers and at least one platform configured for use in fast-rope training. At least one attachment is provided for attaching a fast-rope. The platform-supporting structure is supportable by a surface. The at least one attachment is located higher than the platform and spaced laterally from the platform-supporting structure such that the at least one attachment overhangs the surface so a fast rope can hang from the at least one attachment, past the platform and toward the surface.

A vertical escape structure comprises an escape housing disposed in a vertical orientation and mounted to a ground to maintain structural integrity in the vertical orientation against external flooding. The escape housing includes an interior which is sealed against water entry from exterior flooding and at least one of a staircase, a ladder, an elevator, or a lift disposed in the interior of the escape housing. The vertical escape structure further comprises a connecting walkway to connect the escape housing to a building. The escape housing has a smaller horizontal footprint than the building. The walkway is severable from the building by force without damaging the escape housing to cause water entry from the exterior flooding.

A vertical escape structure comprises an escape housing disposed in a vertical orientation and mounted to a ground to maintain structural integrity in the vertical orientation against external flooding. The escape housing includes an interior which is sealed against water entry from exterior flooding and at least one of a staircase, a ladder, an elevator, or a lift disposed in the interior of the escape housing. The vertical escape structure further comprises a connecting walkway to connect the escape housing to a building. The escape housing has a smaller horizontal footprint than the building. The walkway is severable from the building by force without damaging the escape housing to cause water entry from the exterior flooding.

A public service cabinet includes a foundation support, a connection frame, and housing parts that delimit internal spaces for receiving electrical and/or communication/control equipment. The foundation support includes a first street mast module of which an upper end is configured to be connectable to a lower end of a second street mast module of a modular street mast. The connection frame is releasably connected to the first street mast module, and the housing parts extend to a height that lies above a height to which the first street mast module extends such that at least an upper portion of the first street mast module is surrounded by the housing parts. A removable first-type cover is provided that is configured to shield of an upper side of the cabinet including the upper end of the first street mast module.

The present invention relates to a system to provide a smart city platform for urban areas by utilizing module units that contain multiple types of technology and equipment. A smart city platform is created with a multiplicity of module units installed throughout a cityscape. The module units house various equipment, such as various antennas, cables, brackets and other equipment, to enable smart city connectivity and services and may be additionally fitted with service station units to provide extra capabilities and services to communities.

The present invention is directed to three dimensional (3D) woven lattices for drag and turbulence reduction. 3D woven lattice material can serve as a surface layer that regularizes the flow around a bluff body with beneficial effects on: 1) drag reduction, 2) decrease in turbulence intensity, 3) attenuation of flow-induced vibrations, and 4) aerodynamic noise cancellation. 3-D woven lattice architectures allows for passive flow control (without the need for external energy supply) around bluff bodies with restricted geometry/shape due to their functional requirements such as wind turbine towers, cargo trucks, train cars, etc. The woven material can be easily shaped to fit on various geometries and incorporated in existing manufacturing processes (from composites to metallic plates). Metallic foam and randomly porous materials have been identified in the literature as a promising solution for passive flow control over bluff bodies.

A multidimensional structures that is formed of thirty six interconnecting members in such a manner as to form eight (8) tetrahedrons and six (6) octahedrons thereby providing a structure that is both light weight and strong, the interconnecting members variously intersecting at a central point that may be formed of a single unified structure having fillets in the middle of the multidimensional structure and at twelve (12) external connecting points.