A securement for crawler cranes and system and method for use of the same are disclosed. In one embodiment of the system, a pair of structural securements are spaced at approximately a track-distance apart with respect to the crawler crane and coupled together by multiple transverse support members. When the crawler crane is driven onto the structural securements and fastened thereto, the tipping fulcrum of the crawler crane is shifted, thereby requiring a greater tipping force to tip and adding stability during high wind events.

An improved aircraft engine stand is disclosed, which comprises a cradle assembly comprising a cable pulley system for controlling a vertical height of the cradle assembly with respect to a base assembly, and one or more cam follower rollers configured to engage with the base assembly for smooth vertical translation of the cradle assembly with respect to the base assembly.

A system a first mobile body configured to support a turbine engine and an auxiliary skid communicatively and fluidly coupled to the turbine engine. The auxiliary skid includes one or more interconnects configured to support a turbine engine component. The system also includes a second mobile body configured to support a generator. The first and second mobile bodies are configured to align a removable coupling between the turbine engine and the generator.

A system a first mobile body configured to support a turbine engine and an auxiliary skid communicatively and fluidly coupled to the turbine engine. The auxiliary skid includes one or more interconnects configured to support a turbine engine component. The system also includes a second mobile body configured to support a generator. The first and second mobile bodies are configured to align a removable coupling between the turbine engine and the generator.

An anchoring system for a movable structure is provided. The anchoring system can include a base plate and an anchor rod assembly. The base plate includes a slot configured for receiving a portion of the anchor rod assembly. The slot can include a pocket for receiving and retaining the portion of the assembly. The assembly can be secured to the movable structure and can include a handle component, an extension component and an anchor rod having a threaded member engaged with the extension component and handle component so that the anchor rod can be lifted and lowered relative to the extension component. The system can be operated by moving the structure so that the anchor assembly engages the slot of the base plate and enters the pocket. The anchor rod is then retracted within the pocket, thereby securing the structure.

An anchoring system for a movable structure is provided. The anchoring system can include a base plate and an anchor rod assembly. The base plate includes a slot configured for receiving a portion of the anchor rod assembly. The slot can include a pocket for receiving and retaining the portion of the assembly. The assembly can be secured to the movable structure and can include a handle component, an extension component and an anchor rod having a threaded member engaged with the extension component and handle component so that the anchor rod can be lifted and lowered relative to the extension component. The system can be operated by moving the structure so that the anchor assembly engages the slot of the base plate and enters the pocket. The anchor rod is then retracted within the pocket, thereby securing the structure.

The present invention provides an extendible enclosure, comprising a first frame member supporting a first mesh canopy and a second frame member supporting a second mesh canopy. A sliding mechanism coupling the first frame member to the second frame member is operable to reversibly extend the enclosure between a first contracted position and a second extended position, wherein the first frame member is configured to slidingly engage with the second frame member so that the second frame member at least partially nests within the first frame member when in the first contracted position. The extendible enclosure is particularly suited for objects such as tools, equipment and machinery.

The present invention provides an extendible enclosure, comprising a first frame member supporting a first mesh canopy and a second frame member supporting a second mesh canopy. A sliding mechanism coupling the first frame member to the second frame member is operable to reversibly extend the enclosure between a first contracted position and a second extended position, wherein the first frame member is configured to slidingly engage with the second frame member so that the second frame member at least partially nests within the first frame member when in the first contracted position. The extendible enclosure is particularly suited for objects such as tools, equipment and machinery.

A skid assembly includes a base assembly and a slide assembly, each having a first end and a second end, wherein: the slide assembly comprises a first support station toward the first end and a second support station toward the second; each support station is configured to support a separate component of a BOP assembly; and the slide assembly is movable between a retracted position in which the first and second ends of the slide assembly overlie the first and second ends, respectively, of the base assembly, and an extended position in which the first end of the slide assembly extends beyond the first end of the base assembly to position the first support station, with the BOP assembly assembled thereon, directly over a well head located within a cellar at a well site with the base assembly supported atop a ground surface adjacent to an edge of the cellar.

The present invention provides support frames for positive pressure blowers having one or more wheels mounted at a lower corner of the frame, wherein the wheels are mounted to roll in a direction that is perpendicular to the flow of air through the blower. This sideways orientation of the wheels allows a frame carrying a blower to be easily moved from side to side, such as when placed into or removed from a side compartment on an emergency vehicle, and allows such a frame carrying a blower to be easily tilted, turned and rolled around at the scene of a fire in much the same manner as a wheelbarrow. Embodiments of the invention may include an upper handle or grip which allows a user to control the frames by tilting and rolling them around on the wheels. Embodiments of the invention may include a support bracket for holding a battery or other power supply.