Anti-seismic isolator for isolating of a structure provided with support feet with respect to a ground subject to vibrations induced for example by an earthquake, said isolator comprising an oscillating element that can be associated with at least one of the supporting feet of said structure and a supporting framework provided with a supporting base adapted to support the isolator with respect to the ground, in which said oscillating element and said supporting framework are associated with each other by means of connecting elements sliding in pairs of substantially parallel arched guides, arranged in at least one out of said oscillating element and said supporting framework, whereby said oscillating element and said supporting framework are mutually oscillating and the mutual oscillation of the oscillating element and of the supporting framework causes the simultaneous mutual sliding thereof along two directions perpendicular to each other.

Anti-seismic isolator for isolating of a structure provided with support feet with respect to a ground subject to vibrations induced for example by an earthquake, said isolator comprising an oscillating element that can be associated with at least one of the supporting feet of said structure and a supporting framework provided with a supporting base adapted to support the isolator with respect to the ground, in which said oscillating element and said supporting framework are associated with each other by means of connecting elements sliding in pairs of substantially parallel arched guides, arranged in at least one out of said oscillating element and said supporting framework, whereby said oscillating element and said supporting framework are mutually oscillating and the mutual oscillation of the oscillating element and of the supporting framework causes the simultaneous mutual sliding thereof along two directions perpendicular to each other.

A stabilizing arrangement (1) to support an object above four ground engaging means (2c,3c,4c,5c) has first 2, second 3, third 4 and fourth 5 levers each having a beam portion (2a,3a,4a,5a), an actuating portion (2b,3b,4b,5b) and a ground engaging means (2c,3c,4c,5c). Each lever is connected to a common interconnection means (6) by a respective pivot with a pivot axis. The levers engage consecutively first to second, second to third, third to fourth and fourth to first, via respective projections (2d,3d,4d,5d) permitting ground engaging means warp displacement and thereby the arrangement provides support of the object on uneven ground. For each lever part, the distance a between the respective ground engaging means and the respective pivot axis is a primary lever-rotating moment arm, and the distance b between the respective ground engaging means and the centre of the pivot is a friction loading distance. The friction loading distance b can be greater than or equal to the primary lever-rotating moment arm a.

A stabilizing arrangement (1) to support an object above four ground engaging means (2c,3c,4c,5c) has first 2, second 3, third 4 and fourth 5 levers each having a beam portion (2a,3a,4a,5a), an actuating portion (2b,3b,4b,5b) and a ground engaging means (2c,3c,4c,5c). Each lever is connected to a common interconnection means (6) by a respective pivot with a pivot axis. The levers engage consecutively first to second, second to third, third to fourth and fourth to first, via respective projections (2d,3d,4d,5d) permitting ground engaging means warp displacement and thereby the arrangement provides support of the object on uneven ground. For each lever part, the distance a between the respective ground engaging means and the respective pivot axis is a primary lever-rotating moment arm, and the distance b between the respective ground engaging means and the centre of the pivot is a friction loading distance. The friction loading distance b can be greater than or equal to the primary lever-rotating moment arm a.

A self-adjusting furniture glide attachable to an article of furniture is described. The self-adjusting furniture glide comprises an outer shell comprising an upper portion and a lower portion, wherein the upper portion and the lower portion are joined together to form a hollow cavity and a center member disposed in the outer shell. The center member is seated in the outer shell above a cup-shaped cushion, and comprises a means capable of attaching the self-adjustable furniture guide to an article of furniture attached to a top surface of the center member. The center member is capable of vertical movement within the outer shell and the vertical movement of the center member in the outer shell compresses the cup-shaped cushion.

A self-adjusting furniture glide attachable to an article of furniture is described. The self-adjusting furniture glide comprises an outer shell comprising an upper portion and a lower portion, wherein the upper portion and the lower portion are joined together to form a hollow cavity and a center member disposed in the outer shell. The center member is seated in the outer shell above a cup-shaped cushion, and comprises a means capable of attaching the self-adjustable furniture guide to an article of furniture attached to a top surface of the center member. The center member is capable of vertical movement within the outer shell and the vertical movement of the center member in the outer shell compresses the cup-shaped cushion.

The present invention provides one or more carrier devices capable of varying contact damping with pressured displacement. The device is configured to be installed on mechanical force-receiving structures that have rolling wheels, rolling balls or slidably displaceable terminal block structure, carrying devices and transportation devices for humans or objects. When receiving pressure smaller than a set value, the device provides low contact damping and is thus easy to move. On the other hand, when receiving pressure greater than the set value, it provides high contact damping so as to prevent slip and thereby ensure safe placement.

In addition, when receiving pressure smaller than the set value, the device has its pre-stressed structure generate modulation to displacement corresponding to the size of the pressure it receives for the purpose of shock absorbency.

A method of leveling a table using a leveling system that includes placing at least three sensor bars on a top surface of the table. Each sensor bar includes a (+) end and a (−) end which correspond to lines on a manual level. Each sensor bar is connected to a controller system and acts as an electronic level. Activating a leveling algorithm of the controller system to adjust leg height of the table using a leg movement system connected to the controller system to level the table. Leveling the table using the leveling algorithm to monitor data readings of the sensor bars, changing the height of any of the legs using the leg movement system and continuing to monitor data readings of the sensor bars during leg movement until the table is level.

A swivel foot assembly for a force plate or balance plate is disclosed herein. The swivel foot assembly includes a foot attachment component including a stem portion and a body portion, the stem portion of the foot attachment component configured to be attached to a force plate or balance plate; and a foot base component including a receptacle for receiving the body portion of the foot attachment component, the foot base component configured to be disposed on a support surface. The swivel foot assembly is configured to accommodate an uneven support surface on which a force plate or balance plate is disposed so that a force measurement accuracy of the force plate or balance plate is not adversely affected by stresses resulting from the uneven support surface.

A cabinet assembly includes a base and walls secured to the base to define an interior. The cabinet assembly further includes a pivot pin coupled to the base and a locking device coupled to the base. The locking device is movable relative to the base between an engaged position and a released position. The cabinet assembly additionally includes a support foot. The support foot is fixed to the base in a first orientation when the locking device is in the engaged position. The support foot is movable about the pivot pin to a second orientation spaced from the locking device when the locking device is in the released position.