The telescoping adjustable leg comprises a tubular housing, a tubular toe, a cylindrical toe, a base and an externally threaded rod. The adjustable leg 10 is expandable from a fully retracted position to a fully extended position by rotation of the housing and cylindrical toe relative to the tubular toe.

The telescoping adjustable leg comprises a tubular housing, a tubular toe, a cylindrical toe, a base and an externally threaded rod. The adjustable leg 10 is expandable from a fully retracted position to a fully extended position by rotation of the housing and cylindrical toe relative to the tubular toe.

A motor mounting assembly and associated motor mounting fixture. The motor mounting fixture includes a fixture body, a motor fastener, and a coupling member. The fixture body has a fixture base and first and second spaced apart legs extending distally from the fixture base, a first aperture through the first leg and a second aperture through the second leg. The motor fastener projects proximally from the fixture base, and is received in the at least one elongate slot. The coupling member extends through at least the first aperture of the first leg and is fixed to at least one of the first and second legs. The coupling member has a through bore that includes screw threads that are threadably engageable with the adjusting rod such that the fixture body moves along the elongate slot of the motor base when the adjusting rod is rotated.

A motor mounting assembly and associated motor mounting fixture. The motor mounting fixture includes a fixture body, a motor fastener, and a coupling member. The fixture body has a fixture base and first and second spaced apart legs extending distally from the fixture base, a first aperture through the first leg and a second aperture through the second leg. The motor fastener projects proximally from the fixture base, and is received in the at least one elongate slot. The coupling member extends through at least the first aperture of the first leg and is fixed to at least one of the first and second legs. The coupling member has a through bore that includes screw threads that are threadably engageable with the adjusting rod such that the fixture body moves along the elongate slot of the motor base when the adjusting rod is rotated.

The invention is directed to a machine foot, which includes a top part provided with a lock nut, which is mounted in a thread on a spindle, where the lock nut has an abutment complementary shaped to the housing of the lower part, which abutment forms a section of a sphere, and where there is a first gasket between the spindle and lock nut and where there is a second gasket between housing and lock nut. With the invention is achieved that the lower parts and top parts can be produced and stocked as separate and independent units, which for example are not assembled to a finished product until after order.

The invention is directed to a machine foot, which includes a top part provided with a lock nut, which is mounted in a thread on a spindle, where the lock nut has an abutment complementary shaped to the housing of the lower part, which abutment forms a section of a sphere, and where there is a first gasket between the spindle and lock nut and where there is a second gasket between housing and lock nut. With the invention is achieved that the lower parts and top parts can be produced and stocked as separate and independent units, which for example are not assembled to a finished product until after order.

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.

An electronic apparatus includes a main body including a nut portion; a plurality of level-adjustable foots placed at a lower side of the main body, configured to support the main body, adjustable in height to level the main body, and including a bolt portion inserted in and screw-coupled to the nut portion; and an elastic member configured to elastically press one of the bolt portion and the main body toward the main body or the level-adjustable foot to make a first thread of the bolt portion and a second thread of the nut portion corresponding to the first thread be in contact with each other.

An electronic apparatus includes a main body including a nut portion; a plurality of level-adjustable foots placed at a lower side of the main body, configured to support the main body, adjustable in height to level the main body, and including a bolt portion inserted in and screw-coupled to the nut portion; and an elastic member configured to elastically press one of the bolt portion and the main body toward the main body or the level-adjustable foot to make a first thread of the bolt portion and a second thread of the nut portion corresponding to the first thread be in contact with each other.

A gas turbine engine unit (110) for use in a modular power generation system includes an engine package (112) and a mechanical handling system adapted to convey components (114) out of and into the engine package (112). The engine package (112) includes a floor (132), a plurality of side walls (136), and a ceiling (134) that cooperate to define a sheltered space (140) sized to receive a gas turbine engine. The mechanical handling system includes rails (121) adapted to support components (114) conveyed out of and into the sheltered space (140) defined by the engine package (112).