A support member for supporting a turbine assembly during installation includes a platform having a plurality of modular platform components oriented to define an upper surface of the platform. The support member also includes a linear actuator selectively positionable on the upper surface of the platform. The support member further includes a column selectively positionable on the linear actuator. The platform, the linear actuator, and the column are sized to support the turbine assembly.

An elevation device includes a mounting frame, a rotary actuator fixed to the mounting frame, a shall connected to the rotary actuator and rotatable with respect to the mounting frame, a drive bar slidably connected to the mounting frame, and a connecting member fixed to the shaft. The shaft defines a helical groove in a lateral surface thereof. The drive bar includes a post that is movably fit in the helical groove. The mounting frame, the shaft and the drive bar constitute a conversion mechanism that converts rotation of the shaft into linear motion of the drive bar. The drive bar is slidable with respect to the mounting frame along a direction that is parallel to an axis of rotation of the shaft.

A pump installation member has a first and second mutually discrete support members to be secured to predetermined installation portions of the first and second pump units, respectively. The pump installation member further has installation elastic members to be set between the first and second support members and the installation surface. The installation elastic members are elastically deformable as the first and second support members are displaced toward the installation surface when the first and second support members are fastened to the installation surface.

A pump installation member has a first and second mutually discrete support members to be secured to predetermined installation portions of the first and second pump units, respectively. The pump installation member further has installation elastic members to be set between the first and second support members and the installation surface. The installation elastic members are elastically deformable as the first and second support members are displaced toward the installation surface when the first and second support members are fastened to the installation surface.

A support component includes a leg component having a male thread portion that is provided on at least an upper side of a rod extending in a height direction, and a pedestal portion that is provided larger than the rod and provided at a lower end portion of the rod, and a receiving component having a extruded portion that is provided, in a frame material including two vertically separated plate materials constituting a housing bottom portion of an equipment, in the plate material located on an upper side of the frame material and into which the male thread portion of the rod is screwed, and a through-hole that is provided in the plate material located on a lower side of the frame material and through which the rod passes, in which the support component enables height adjustment in a state in which the rod of the leg component is inserted through the extruded portion and the through-hole of the receiving component.

A support component includes a leg component having a male thread portion that is provided on at least an upper side of a rod extending in a height direction, and a pedestal portion that is provided larger than the rod and provided at a lower end portion of the rod, and a receiving component having a extruded portion that is provided, in a frame material including two vertically separated plate materials constituting a housing bottom portion of an equipment, in the plate material located on an upper side of the frame material and into which the male thread portion of the rod is screwed, and a through-hole that is provided in the plate material located on a lower side of the frame material and through which the rod passes, in which the support component enables height adjustment in a state in which the rod of the leg component is inserted through the extruded portion and the through-hole of the receiving component.

A mounting system for supporting rotating machinery is described. The system comprises a base frame having an upper side for mounting the rotating machinery, and a lower side. A set of main supporting members are arranged according to a triangular arrangement and forming a three-point mounting arrangement defining a mounting plane. Moreover, a set of auxiliary supporting members, having a variable stiffness in at least one direction, are provided and are configured and arranged such as to increase the stiffness thereof when the base frame is subject to an overload, thus reducing load on the main supporting members.

A mounting system for supporting rotating machinery is described. The system comprises a base frame having an upper side for mounting the rotating machinery, and a lower side. A set of main supporting members are arranged according to a triangular arrangement and forming a three-point mounting arrangement defining a mounting plane. Moreover, a set of auxiliary supporting members, having a variable stiffness in at least one direction, are provided and are configured and arranged such as to increase the stiffness thereof when the base frame is subject to an overload, thus reducing load on the main supporting members.

The present disclosure relates to a coupling assembly for attaching a power generating source to a structure and a system thereof. The coupling assembly comprises at least one shaft having a first end and a second end and a support structure having a top portion and a bottom portion. The at least one shaft is configured to be attached to the power generating source at the first end. The support structure is configured to receive at least a portion of the at least one shaft at the second end on the top portion therein. The support structure is further configured to be attached to the structure at the bottom portion. The coupling mechanism is configured to provide support and stability to the power generating source. The system is configured to generate electrical energy which may be utilized to provide power to a tower.

The present disclosure relates to a coupling assembly for attaching a power generating source to a structure and a system thereof. The coupling assembly comprises at least one shaft having a first end and a second end and a support structure having a top portion and a bottom portion. The at least one shaft is configured to be attached to the power generating source at the first end. The support structure is configured to receive at least a portion of the at least one shaft at the second end on the top portion therein. The support structure is further configured to be attached to the structure at the bottom portion. The coupling mechanism is configured to provide support and stability to the power generating source. The system is configured to generate electrical energy which may be utilized to provide power to a tower.