A system for securing an air conditioning unit to a building without the need for any alteration and/or damage to the building itself. The system includes a cross bar, an air conditioning unit support, and a strut. The arrangement of the components results in the cross bar applying an outward force to an interior surface of the building and strut applying an inward force to an exterior surface of the building in response to the downward force exerted on the air conditioning unit support. The sum of the forces applied on the surfaces of the building is sufficient to secure the air conditioning unit to the building.

A loading platform for use in building construction, the loading platform comprising a support structure adapted to be fixed to a building and extend outwardly from the building; and a deck mountable to the support structure such that the deck extends from the building, the support structure being configured such that at least a portion of an upper surface of the support structure extends level with or below a floor surface of the building when fixed to the building.

A furling crane loading platform (1) comprising: a cantilever support base (3); a first stage (2A) pivotally coupled to the cantilever support base (3); and a second stage (2B) pivotally coupled to first stage (2A). In an unfurled configuration (2B) the first and second stages provide a substantially horizontal crane loading surface extending from a building edge (11). The platform is configurable into furled configuration (2A). The platform may further comprise a third stage pivotally coupled to the second stage, fourth pivotally coupled to the third stage, hydraulic actuators (16), controller for controlling the stages in a sequence, sensor for sensing the configuration of the stages, detachable cantilever support beams (4) with a downward transition portion (19), props (5) to prop the cantilever support beams against an under surface of a floor slab and lockout mechanism (17).

The invention relates to a construction time elevator arrangement comprising a hoistway; a protection deck mounted within the hoistway for protecting the portion of the hoistway below it from falling objects; the protection deck comprising a roof member extending diagonally across the hoistway and covering the hoistway such that it blocks objects and/or water from falling into the hoistway below it; and a cross member extending in horizontal direction across the hoistway below the roof member. The cross member is pivotally connected with the roof member, the protection deck being collapsible into a transport state by pivoting the cross member and the roof member towards each other. The invention relates to a method implementing the construction time elevator arrangement.

The invention relates to a construction time elevator arrangement comprising a hoistway; a protection deck mounted within the hoistway for protecting the portion of the hoistway below it from falling objects; the protection deck comprising a roof member extending diagonally across the hoistway and covering the hoistway such that it blocks objects and/or water from falling into the hoistway below it; and a cross member extending in horizontal direction across the hoistway below the roof member. The cross member is pivotally connected with the roof member, the protection deck being collapsible into a transport state by pivoting the cross member and the roof member towards each other. The invention relates to a method implementing the construction time elevator arrangement.

A system for securing an air conditioning unit to a building without the need for any alteration and/or damage to the building itself. The system includes a cross bar, an air conditioning unit support, and a strut. The arrangement of the components results in the cross bar applying an outward force to an interior surface of the building and strut applying an inward force to an exterior surface of the building in response to the downward force exerted on the air conditioning unit support. The sum of the forces applied on the surfaces of the building is sufficient to secure the air conditioning unit to the building.

An air-conditioner support bracket does not require any drilling into the home and has a higher weight rating of 150 lb. The support bracket is configurable to accommodate a wide range of window Air Conditioning unit shapes and sizes, is adaptable to a variety of opening widths, and may be tilted to support the air conditioning unit in a horizontal position.

An air-conditioner support bracket does not require any drilling into the home and has a higher weight rating of 150 lb. The support bracket is configurable to accommodate a wide range of window Air Conditioning unit shapes and sizes, is adaptable to a variety of opening widths, and may be tilted to support the air conditioning unit in a horizontal position.

A mounting bracket assembly includes a support plate and an outdoor support. The support plate includes an outer support member. A mounting slide groove is formed at the outer support member and extending in a length direction of the support plate. One end of the outdoor support is slidably provided in the mounting slide groove. A limit structure is provided between the one end of the outdoor support and the mounting slide groove and configured to limit the one end of the outdoor support from separating from the mounting slide groove.

A mounting bracket assembly includes a support plate and an outdoor support. The support plate includes an outer support member. A mounting slide groove is formed at the outer support member and extending in a length direction of the support plate. One end of the outdoor support is slidably provided in the mounting slide groove. A limit structure is provided between the one end of the outdoor support and the mounting slide groove and configured to limit the one end of the outdoor support from separating from the mounting slide groove.