A self stabilizing system which has an incompressible coil at least partially encompassed in a housing, and which controls a foot of a device to be stabilized. The coil abuts a plunger, which plunger is for allowing a user to selectably lock the elevation by use of a pin which fits within a plurality of annular grooves on the plunger. In a first embodiment, a pair of coils surround the plunger on either side and control a pair of feet, thus allowing automatic stabilization on an uneven surface. In a second embodiment, a single coil is controlled by a spring which abuts the plunger allowing a spring-loaded system for selecting an elevation to lock the plunger.

A device for connecting the elastic elements and dissipaters of variable type of a mechanical suspension interposed between two vibrating or tilting mechanical systems, the source body and the receiving body, respectively, in order to reduce the forces acting on the receiving body, and/or the displacement thereof, and/or the speed thereof, or combinations of the previous physical magnitudes and/or of any other ones, which are produced on the receiving body due to the motion or forces to which the source is subjected. The device consists of elastic elements, such as metal components or compressed gases, energy dissipating elements, either by means of friction between fluid and solid, and between solid and solid, or by means of suitable electromagnetic couplings the damping ability of which can be automatically varied by a suitable control system according to the operating conditions of the suspension; elements forming the kinematic connection structure between the elastic elements, damping elements, source and receiving bodies, such connections being solid or fluid or electromagnetic connections.

A device for connecting the elastic elements and dissipaters of variable type of a mechanical suspension interposed between two vibrating or tilting mechanical systems, the source body and the receiving body, respectively, in order to reduce the forces acting on the receiving body, and/or the displacement thereof, and/or the speed thereof, or combinations of the previous physical magnitudes and/or of any other ones, which are produced on the receiving body due to the motion or forces to which the source is subjected. The device consists of elastic elements, such as metal components or compressed gases, energy dissipating elements, either by means of friction between fluid and solid, and between solid and solid, or by means of suitable electromagnetic couplings the damping ability of which can be automatically varied by a suitable control system according to the operating conditions of the suspension; elements forming the kinematic connection structure between the elastic elements, damping elements, source and receiving bodies, such connections being solid or fluid or electromagnetic connections.

A leveling kit for a portable stove is provided. The leveling kit can include a plurality of leveling devices. Each leveling device can include a mounting plate having a plurality of openings. Each leveling device can further include a fastener that extends through the mounting plate to couple the leveling device with the portable stove and a leveling member having a foot. The leveling member can be configured to have an adjustable height.

A leveling kit for a portable stove is provided. The leveling kit can include a plurality of leveling devices. Each leveling device can include a mounting plate having a plurality of openings. Each leveling device can further include a fastener that extends through the mounting plate to couple the leveling device with the portable stove and a leveling member having a foot. The leveling member can be configured to have an adjustable height.

In various embodiments, an engine mount may comprise a mount base configured to physically engage at least a portion of an engine positioned adjacent thereto so as to secure the engine in a mounted position relative to the engine mount, the mount base comprising: a base component; an engine positioning element protruding from the base component and configured to restrict a range of motion of the engine in at least one direction; and at least one base orifice extending through a thickness of the base component and configured to receive a protruding portion of the engine within an internal volume of the base orifice; and an attachment hub comprising one or more attachment features configured to receive at least a portion of an external engine tool and engage the external engine tool such that at least a portion of the external engine tool is arranged adjacent the mount base.

In various embodiments, an engine mount may comprise a mount base configured to physically engage at least a portion of an engine positioned adjacent thereto so as to secure the engine in a mounted position relative to the engine mount, the mount base comprising: a base component; an engine positioning element protruding from the base component and configured to restrict a range of motion of the engine in at least one direction; and at least one base orifice extending through a thickness of the base component and configured to receive a protruding portion of the engine within an internal volume of the base orifice; and an attachment hub comprising one or more attachment features configured to receive at least a portion of an external engine tool and engage the external engine tool such that at least a portion of the external engine tool is arranged adjacent the mount base.

An articulated adjusting foot including a base plate having a receiving space on the side of the plate remote of the floor and which has the geometry of a partial ball, preferably with dimensions slightly exceeding a hemisphere, further having a threaded rod which has at its one end a partial ball that can be inserted into the receiving space. The partial ball of the threaded rod can be fittingly received in the receiving space. The threaded rod is a conventional screw bolt with hexagon head. The ball, which can be inserted into the receiving space, is formed of two parts, e.g., halves (half-shells), which can be inserted one into the other and which enclose the hexagon head in a torsionally rigid manner. The geometry of the partial balls of the threaded rod exceeds that of the receiving space axially in direction of the threaded shaft.

An articulated adjusting foot including a base plate having a receiving space on the side of the plate remote of the floor and which has the geometry of a partial ball, preferably with dimensions slightly exceeding a hemisphere, further having a threaded rod which has at its one end a partial ball that can be inserted into the receiving space. The partial ball of the threaded rod can be fittingly received in the receiving space. The threaded rod is a conventional screw bolt with hexagon head. The ball, which can be inserted into the receiving space, is formed of two parts, e.g., halves (half-shells), which can be inserted one into the other and which enclose the hexagon head in a torsionally rigid manner. The geometry of the partial balls of the threaded rod exceeds that of the receiving space axially in direction of the threaded shaft.

According to one embodiment, a maintenance method includes providing the electric generator with leg plates for placing the electric generator on a floor face of a foundation pedestal, forming a bottom portion of the electric generator to have a bottom plane capable of supporting a weight of the electric generator, and forming a gap between the bottom plane of the electric generator and an opposing floor face of the foundation pedestal; and providing the carrier device in the gap, and lifting up and horizontally moving the electric generator by the carrier device, and thereafter doing maintenance of the electric generator.