A self-climbing installation platform includes two decks including an upper deck and a lower deck. Each deck includes a guide element configured to support the deck movably on guide rails. Each deck includes a locking element configured to lock and unlock the deck to the guide rails and/or to guide rail fixing elements. The installation platform includes a lifting element configured to move the two decks along the guide rails in relation to each other, and at least one power source configured to provide power to the lifting element. The installation platform is configured to climb stepwise along the guide rails based on alternatingly locking and unlocking the lower deck and the upper deck to the guide rails and/or to the guide rail fixing elements with separate, respective locking elements and raising an unlocked deck with the lifting element.

A climbing system for multi-level building construction includes (a) a plurality of vertical guides mountable to a building structure under construction; (b) a climbing unit coupled to the vertical guides for guided vertical translation of the climbing unit along an exterior of the building structure and; (c) one or more horizontal guides mounted to the climbing unit; and (d) an extendible platform supported by the horizontal guides for guided translation of the extendible platform along a horizontal axis extending generally perpendicular to the building structure. The extendible platform is translatable along the horizontal axis between a retracted position, in which the extendible platform is generally retracted into the climbing unit and clear of the building structure to permit interference-free vertical translation of the climbing unit, and an advanced position, in which the extendible platform projects horizontally from the climbing unit to the building structure for covering a gap therebetween.

Methods of performing assembly or maintenance on an aircraft, systems for performing desired assembly or maintenance on an aircraft, and mobile work stations useful for such systems and methods, where the mobile work stations include a work platform, including an accessway providing access to the work platform; and a moveable base supporting the work platform with one or more platform jacks that can adjustably raise and lower the work platform.

Methods of performing assembly or maintenance on an aircraft, systems for performing desired assembly or maintenance on an aircraft, and mobile work stations useful for such systems and methods, where the mobile work stations include a work platform, including an accessway providing access to the work platform; and a moveable base supporting the work platform with one or more platform jacks that can adjustably raise and lower the work platform.

A rack rail is suspended into a silo from an opening formed in a ceiling portion of the silo and a lifting body is lowered into the silo along the rack rail from the opening. A work scaffold is built on the lifting body using a part carried into the silo from the opening, a worker connected to the work scaffold with a safety belt pokes and breaks down a granular powder in a state where a discharge port of a silo bottom portion is closed, the poked and broken down granular powder drops to a rat hole (or boring hole), the worker connected to the work scaffold with the safety belt adds a rack rail in a state where the rat hole is blocked with the granular powder, the discharge port is opened to discharge the granular powder stored in the passage, and then the work scaffold is lowered to the added rack rail.

A rack rail is suspended into a silo from an opening formed in a ceiling portion of the silo and a lifting body is lowered into the silo along the rack rail from the opening. A work scaffold is built on the lifting body using a part carried into the silo from the opening, a worker connected to the work scaffold with a safety belt pokes and breaks down a granular powder in a state where a discharge port of a silo bottom portion is closed, the poked and broken down granular powder drops to a rat hole (or boring hole), the worker connected to the work scaffold with the safety belt adds a rack rail in a state where the rat hole is blocked with the granular powder, the discharge port is opened to discharge the granular powder stored in the passage, and then the work scaffold is lowered to the added rack rail.

The invention relates to an assembly consisting of a climbing rail and a climbing lift rail, which can be moved relative to the climbing rail and is guided by the climbing rail, for a rail-guided climbing system which can be used in particular as a climbing formwork, a climbing frame, a climbing protection wall, and/or a climbing working platform and which comprises climbing shoes that can be arranged on a building structure in a stationary manner and a lifting device that is fixed to the climbing rail at one end and to the climbing lift rail at the other end. The climbing rail is guided by the climbing shoes, wherein the climbing rail and the climbing lift rail can each be suspended on at least one of the climbing shoes in the direction opposite the climbing direction and can be unhooked from the at least one of the climbing shoes in the climbing direction and moved relative to the at least one of the climbing shoes. A fixing means is provided in order to fix the climbing rail and the climbing lift rail to each other in a reversibly releasable manner independently of a fixation to each other by means of the lifting device.

The invention relates to an assembly consisting of a climbing rail and a climbing lift rail, which can be moved relative to the climbing rail and is guided by the climbing rail, for a rail-guided climbing system which can be used in particular as a climbing formwork, a climbing frame, a climbing protection wall, and/or a climbing working platform and which comprises climbing shoes that can be arranged on a building structure in a stationary manner and a lifting device that is fixed to the climbing rail at one end and to the climbing lift rail at the other end. The climbing rail is guided by the climbing shoes, wherein the climbing rail and the climbing lift rail can each be suspended on at least one of the climbing shoes in the direction opposite the climbing direction and can be unhooked from the at least one of the climbing shoes in the climbing direction and moved relative to the at least one of the climbing shoes. A fixing means is provided in order to fix the climbing rail and the climbing lift rail to each other in a reversibly releasable manner independently of a fixation to each other by means of the lifting device.

A cage for surrounding a section of a work area of the top of rolling stock includes an inboard side, an outboard side, a front end section and a back end section. The inboard side of the cage is attached to an associated deployment apparatus. Each of the two sides can define a pair of fence notches to slide over the rails surrounding the work area. Each of the two end sections can define an inboard notch and a center notch. Some embodiments of the end sections can define an outboard notch that includes a self-adjusting straddle. The cage can be provided as part of a portable fall protection device that includes a telescoping positioning mechanism.

A cage for surrounding a section of a work area of the top of rolling stock includes an inboard side, an outboard side, a front end section and a back end section. The inboard side of the cage is attached to an associated deployment apparatus. Each of the two sides can define a pair of fence notches to slide over the rails surrounding the work area. Each of the two end sections can define an inboard notch and a center notch. Some embodiments of the end sections can define an outboard notch that includes a self-adjusting straddle. The cage can be provided as part of a portable fall protection device that includes a telescoping positioning mechanism.