A slide rail assembly includes a first rail, a second rail, a slide assisting device, an elastic member and a working member. The second rail and the first rail are movable relative to each other. The elastic member is arranged on the second rail. During a process of the second rail being moved relative to the first rail along an opening direction, the working member is configured to contact the elastic member in an initial state in order to drive the slide assisting device to move along the opening direction to a predetermined position. When the slide assisting device is located at the predetermined position, the elastic member releases an elastic force through a predetermined space of the first rail, such that the elastic member is no longer in the initial state with the working member no longer contacting the elastic member.

A drawer glide mechanism includes a first elongate guide member, a second elongate glide member, and a v-notch socket. The first and second elongate members are ball-bearing guide members. The first elongate guide member includes a distal end that is configured to fit within an opening in the v-notch socket, thereby locking it in place.

A drawer glide mechanism includes a first elongate guide member, a second elongate glide member, and a v-notch socket. The first and second elongate members are ball-bearing guide members. The first elongate guide member includes a distal end that is configured to fit within an opening in the v-notch socket, thereby locking it in place.

An arrangement for tipping over prevention of a furniture (1) such as a chest of drawers or a cabinet comprising at least one drawer is disclosed. The arrangement comprises a bar (300) and an attachment adapted to anchor the furniture (1) to a wall (W). The attachment comprises a guiding bracket (100) and an anchoring bracket (200) adapted to be movable between a first position and a second position in view of the guiding bracket (100). The anchoring bracket (200) has an anchoring portion (206) adapted to anchor the furniture (1) to a wall (W). The bar (300) is movable between a restriction position and a clearance position when acted upon by the anchoring bracket (200). When the anchoring bracket (200) is moved from the first position to the second position a wedge shaped support member (204) forces a projection (302) of the bar (300) to move along the wedge shaped support member (204) thereby moving the bar (300) from the restriction position to the clearance position, in which clearance position the drawer (4) is allowed to be pushed or pulled past a stop member (301) of the bar (300).

The present invention discloses a mechanism to prevent sliding for cabinet drawers, comprising a handle component including a handle seat, a handle bar, and pin components; the handle seat being fixed to the drawer, the handle bar being assembled to the handle seat, and the pin components being inserted to two ends of the handle bar and fixed to the drawer. The pin component comprises a pin seat, a pin core, a rocker, and a limit member; the pin core is assembled to the pin seat and slid with respect to the pin seat; the limit member is engaged the tail of the pin core; and the rocker is assembled to pin seat whose bottom portion is attached with the limit member and upper portion is attached with handle bar.

The present invention discloses a mechanism to prevent sliding for cabinet drawers, comprising a handle component including a handle seat, a handle bar, and pin components; the handle seat being fixed to the drawer, the handle bar being assembled to the handle seat, and the pin components being inserted to two ends of the handle bar and fixed to the drawer. The pin component comprises a pin seat, a pin core, a rocker, and a limit member; the pin core is assembled to the pin seat and slid with respect to the pin seat; the limit member is engaged the tail of the pin core; and the rocker is assembled to pin seat whose bottom portion is attached with the limit member and upper portion is attached with handle bar.

A slide rail unit includes: an outer rail; a middle rail housed in the outer rail, being slidable in a longitudinal direction of the outer rail; an inner rail housed in the middle rail, being slidable in a longitudinal direction of the middle rail; and a lever disposed between the outer rail and the middle rail, being slidable in the longitudinal direction of the outer rail. The lever includes a lever projecting portion configured to lock a slide of the middle rail when the lever is drawn out by a predetermined distance.

A slide rail unit includes: an outer rail; a middle rail housed in the outer rail, being slidable in a longitudinal direction of the outer rail; an inner rail housed in the middle rail, being slidable in a longitudinal direction of the middle rail; and a lever disposed between the outer rail and the middle rail, being slidable in the longitudinal direction of the outer rail. The lever includes a lever projecting portion configured to lock a slide of the middle rail when the lever is drawn out by a predetermined distance.

An electric drawer with gesture sensing includes a cabinet body, a controller, a drawer body, a driving device, and a gesture sensor. The gesture sensor is used for sensing a gesture to open or close the drawer body and for transmitting the corresponding information to the controller. After that, the controller controls the operation of the driving device to open or close the drawer. Through this electric drawer, there is no need for the user to manually push and pull the drawer, and the user can open or close the drawer with a gesture to facilitate the use of the drawer.

A slide rail assembly includes a first rail, a second rail, a first locking mechanism, and a second locking mechanism. The second rail can be displaced with respect to the first rail. The first locking mechanism and the second locking mechanism are arranged at two different portions of the second rail respectively and are configured to lock the second rail at two predetermined extended positions respectively. The first locking mechanism and the second locking mechanism can be operated so that the second rail is no longer locked by the locking mechanisms and can be retracted with respect to the first rail.