One embodiment of the present invention provides a slide device including a fixed rail fixedly installed on a main body, a moving rail provided to be movable with respect to the fixed rail, a body provided in an end region of one side of the fixed rail and including a guide passage, a slider which is coupled to the body and is selectively and slidably movable in a longitudinal direction of the body when the moving rail slidably moves, a transfer pin which is rotatably coupled to the slider and is movable along the guide passage, an elastic member disposed between and connected to the body and the slider and configured to be elastically compressed or expanded when the slider moves, and a damper which is provided on the body and of which an end portion of a rod is connected to the slider.

A printer paper drawer door closing mechanism includes a fixed chassis defining a chassis plane, a lever arm joined to the chassis and pivotable about a lever arm pivot axis from a first lever arm limit state to a second lever arm limit state. A first bearing surface extends from the lever arm at a first lever arm distance and a second bearing surface extending from the lever arm at a second lever arm distance. The first bearing surface is at a bearing surface distance from the second bearing surface. An energy storage element is integrated with the lever arm. A cam plate is translatable toward and away from the lever arm and pivotable about a cam plate pivot axis from a first cam limit state to a second cam limit state. The cam plate includes a first cam surface extending from the cam plate and a second cam surface extending from the cam plate, the first cam surface being oriented at a positive angle relative to the copier chassis plane and co-planar with the first bearing surface, the second cam surface is oriented at a negative angle relative to the copier chassis plane and co-planar with the second bearing surface. The distance separating the first bearing surface and the second bearing surface is substantially equal to the distance separating a distal end of the first cam surface and a proximal end of the second cam surface.

A printer paper drawer door closing mechanism includes a fixed chassis defining a chassis plane, a lever arm joined to the chassis and pivotable about a lever arm pivot axis from a first lever arm limit state to a second lever arm limit state. A first bearing surface extends from the lever arm at a first lever arm distance and a second bearing surface extending from the lever arm at a second lever arm distance. The first bearing surface is at a bearing surface distance from the second bearing surface. An energy storage element is integrated with the lever arm. A cam plate is translatable toward and away from the lever arm and pivotable about a cam plate pivot axis from a first cam limit state to a second cam limit state. The cam plate includes a first cam surface extending from the cam plate and a second cam surface extending from the cam plate, the first cam surface being oriented at a positive angle relative to the copier chassis plane and co-planar with the first bearing surface, the second cam surface is oriented at a negative angle relative to the copier chassis plane and co-planar with the second bearing surface. The distance separating the first bearing surface and the second bearing surface is substantially equal to the distance separating a distal end of the first cam surface and a proximal end of the second cam surface.

A drawer pull-out guide includes a carcass rail to be fixed to a furniture carcass, an extension rail displaceably supported relative to the carcass rail between a closed position and an open position, a retraction device having a force storage member, and a functional unit arranged on a front-end region of the extension rail. The extension rail can be retracted into the closed position by a force of the force storage member. The retraction device is at least partially arranged within the extension rail. The functional unit and the retraction device are configured as constructional units separate from one another.

A drawer pull-out guide includes a carcass rail to be fixed to a furniture carcass, an extension rail displaceably supported relative to the carcass rail between a closed position and an open position, a retraction device having a force storage member, and a functional unit arranged on a front-end region of the extension rail. The extension rail can be retracted into the closed position by a force of the force storage member. The retraction device is at least partially arranged within the extension rail. The functional unit and the retraction device are configured as constructional units separate from one another.

A slide rail assembly includes a first rail, a second rail, a returning device and a connecting device. The returning device is arranged on the first rail and includes an elastic member and a movable member. The connecting device is arranged on the second rail and includes a first connecting member and a second connecting member. During a process of the second rail being moved relative to the first rail from an extended position along a retracting direction, the second connecting member is configured to contact the movable member, in order to drive the movable member to switch from a second state to a first state. Accordingly, the second rail is configured to be driven to move to a retracted position by an elastic force of the elastic member.

A slide rail assembly includes a first rail, a second rail, a returning device and a connecting device. The returning device is arranged on the first rail and includes an elastic member and a movable member. The connecting device is arranged on the second rail and includes a first connecting member and a second connecting member. During a process of the second rail being moved relative to the first rail from an extended position along a retracting direction, the second connecting member is configured to contact the movable member, in order to drive the movable member to switch from a second state to a first state. Accordingly, the second rail is configured to be driven to move to a retracted position by an elastic force of the elastic member.

A drive device for a movable furniture part, in particular a drawer, includes a housing, an ejection device which is arranged in the housing for ejecting the movable furniture part out of a closed position into an open position, and a retraction device which is arranged in the same housing for retracting the movable furniture part out of an open position into the closed position. The drive device has a first operating mode and a second operating mode. In the first operating mode, only the retraction device is operative while opening and closing the movable furniture part, and in the second operating mode, both the ejection device and the retraction device are operative while opening and closing the movable furniture part.

A drive device for a movable furniture part, in particular a drawer, includes a housing, an ejection device which is arranged in the housing for ejecting the movable furniture part out of a closed position into an open position, and a retraction device which is arranged in the same housing for retracting the movable furniture part out of an open position into the closed position. The drive device has a first operating mode and a second operating mode. In the first operating mode, only the retraction device is operative while opening and closing the movable furniture part, and in the second operating mode, both the ejection device and the retraction device are operative while opening and closing the movable furniture part.

A drawer slide is arranged for guiding a drawer (2, 4, 6) in an essentially linear movement as the drawer (2, 4, 6) is pulled out from a cabinet (8) to a static extended position (S). The drawer slide comprises at least one drawer biasing member arranged to bias the drawer (2) in a direction towards the cabinet (8) upon pulling the drawer (2, 4, 6) further away from the cabinet (8) beyond the static extended position (S) to a biased non-static extended position (B).