A lift buffering structure includes a hollow column-shaped housing, a holding seat fixedly connected to an inner wall surface of the hollow column-shaped housing, an inner stem disposed in the hollow column-shaped housing and slidably extended through the holding seat, an elastic element having an end connected to the inner stem and another end to the holding seat to limit a travel stroke of the inner stem, an abutting unit disposed at one side of the holding seat opposite to the elastic element and having a width downward reduced gradually along a height direction of the hollow column-shaped housing, and an anti-slip unit connected to a lower end of the inner stem and located between the abutting unit and the inner wall surface of the hollow column-shaped housing. The lift buffering structure having the above structure can overcome a lot of problems in the conventional gas and oil struts.

A lift buffering structure includes a hollow column-shaped housing, a holding seat fixedly connected to an inner wall surface of the hollow column-shaped housing, an inner stem disposed in the hollow column-shaped housing and slidably extended through the holding seat, an elastic element having an end connected to the inner stem and another end to the holding seat to limit a travel stroke of the inner stem, an abutting unit disposed at one side of the holding seat opposite to the elastic element and having a width downward reduced gradually along a height direction of the hollow column-shaped housing, and an anti-slip unit connected to a lower end of the inner stem and located between the abutting unit and the inner wall surface of the hollow column-shaped housing. The lift buffering structure having the above structure can overcome a lot of problems in the conventional gas and oil struts.

A lift buffering structure includes a hollow column-shaped housing, a holding seat fixedly connected to an inner wall surface of the hollow column- shaped housing, an inner stem disposed in the hollow column-shaped housing and slidably extended through the holding seat, an elastic element having an end connected to the inner stem and another end to the holding seat to limit a travel stroke of the inner stem, an abutting unit disposed at one side of the holding seat opposite to the elastic element and having a width downward reduced gradually along a height direction of the hollow column-shaped housing, and an anti-slip unit connected to a lower end of the inner stem and located between the abutting unit and the inner wall surface of the hollow column-shaped housing. The lift buffering structure having the above structure can overcome a lot of problems in the conventional gas and oil struts.

A lift buffering structure includes a hollow column-shaped housing, a holding seat fixedly connected to an inner wall surface of the hollow column- shaped housing, an inner stem disposed in the hollow column-shaped housing and slidably extended through the holding seat, an elastic element having an end connected to the inner stem and another end to the holding seat to limit a travel stroke of the inner stem, an abutting unit disposed at one side of the holding seat opposite to the elastic element and having a width downward reduced gradually along a height direction of the hollow column-shaped housing, and an anti-slip unit connected to a lower end of the inner stem and located between the abutting unit and the inner wall surface of the hollow column-shaped housing. The lift buffering structure having the above structure can overcome a lot of problems in the conventional gas and oil struts.

A movement control device comprising a housing with an elongate push rod mounted therein for reciprocal movement along a longitudinal axis between first and second positions, wherein the push rod extends out of said housing in both the first and second positions. A spring comprising a primary axis operable to provide a biasing force on the push rod is further provided in the housing. A damping device comprising a primary axis is located in the housing, wherein the damping device is in continuous engagement with the push rod through its reciprocating movement. The primary axis of the spring and the primary axis of the damping device are not coaxial.

A movement control device comprising a housing with an elongate push rod mounted therein for reciprocal movement along a longitudinal axis between first and second positions, wherein the push rod extends out of said housing in both the first and second positions. A spring comprising a primary axis operable to provide a biasing force on the push rod is further provided in the housing. A damping device comprising a primary axis is located in the housing, wherein the damping device is in continuous engagement with the push rod through its reciprocating movement. The primary axis of the spring and the primary axis of the damping device are not coaxial.

Embodiments disclosed herein provide systems and methods for harvesting motional energy, wherein components of the motional energy harvester are disposed, embedded, positioned, etc. within a container. By positioning the components of the motional energy harvester within the container, embodiments may not include large add-ons that coupled to an outer surface of the container.

Embodiments disclosed herein provide systems and methods for harvesting motional energy, wherein components of the motional energy harvester are disposed, embedded, positioned, etc. within a container. By positioning the components of the motional energy harvester within the container, embodiments may not include large add-ons that coupled to an outer surface of the container.

A furniture drive for retracting a movably supported furniture part into a closed position relative to a furniture carcass, including a housing, an entrainment member which can be releasably coupled to the movable furniture part, a spring device for applying a force to the entrainment member, at least one guide path arranged or formed on the housing, wherein the entrainment member is displaceably arranged along the guide path, wherein the guide path includes a first bend for releasably locking the entrainment member, wherein the guide path includes at least one second bend for releasably locking the entrainment member, wherein at least one movably-supported switch element with a first and with a second switching position is provided, wherein the switch element, in the first switching position, blocks the first bend so that the entrainment member can move into the second bend and wherein the switch element, in the second switching position, unblocks the first bend so that the entrainment member can move into the first bend.

A furniture drive for retracting a movably supported furniture part into a closed position relative to a furniture carcass, including a housing, an entrainment member which can be releasably coupled to the movable furniture part, a spring device for applying a force to the entrainment member, at least one guide path arranged or formed on the housing, wherein the entrainment member is displaceably arranged along the guide path, wherein the guide path includes a first bend for releasably locking the entrainment member, wherein the guide path includes at least one second bend for releasably locking the entrainment member, wherein at least one movably-supported switch element with a first and with a second switching position is provided, wherein the switch element, in the first switching position, blocks the first bend so that the entrainment member can move into the second bend and wherein the switch element, in the second switching position, unblocks the first bend so that the entrainment member can move into the first bend.